dd0e8eec14
* copyright headers for agent folder * Ignore test data files * fix proto files and remove headers in agent/uiserver folder * ignore deep-copy files
670 lines
18 KiB
Go
670 lines
18 KiB
Go
// Copyright (c) HashiCorp, Inc.
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// SPDX-License-Identifier: MPL-2.0
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package router
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import (
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"fmt"
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"sort"
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"sync"
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"github.com/hashicorp/go-hclog"
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"github.com/hashicorp/serf/coordinate"
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"github.com/hashicorp/serf/serf"
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"github.com/hashicorp/consul/agent/metadata"
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"github.com/hashicorp/consul/agent/structs"
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"github.com/hashicorp/consul/lib"
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"github.com/hashicorp/consul/logging"
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"github.com/hashicorp/consul/types"
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)
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// Router keeps track of a set of network areas and their associated Serf
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// membership of Consul servers. It then indexes this by datacenter to provide
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// healthy routes to servers by datacenter.
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type Router struct {
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// logger is used for diagnostic output.
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logger hclog.Logger
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// localDatacenter has the name of the router's home datacenter. This is
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// used to short-circuit RTT calculations for local servers.
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localDatacenter string
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// serverName has the name of the router's server. This is used to
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// short-circuit pinging to itself.
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serverName string
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// areas maps area IDs to structures holding information about that
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// area.
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areas map[types.AreaID]*areaInfo
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// managers is an index from datacenter names to a list of server
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// managers for that datacenter. This is used to quickly lookup routes.
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managers map[string][]*Manager
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// routeFn is a hook to actually do the routing.
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routeFn func(datacenter string) (*Manager, *metadata.Server, bool)
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// grpcServerTracker is used to balance grpc connections across servers,
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// and has callbacks for adding or removing a server.
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grpcServerTracker ServerTracker
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// isShutdown prevents adding new routes to a router after it is shut
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// down.
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isShutdown bool
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// This top-level lock covers all the internal state.
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sync.RWMutex
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}
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// RouterSerfCluster is an interface wrapper around Serf in order to make this
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// easier to unit test.
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type RouterSerfCluster interface {
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NumNodes() int
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Members() []serf.Member
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GetCoordinate() (*coordinate.Coordinate, error)
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GetCachedCoordinate(name string) (*coordinate.Coordinate, bool)
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}
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// managerInfo holds a server manager for a datacenter along with its associated
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// shutdown channel.
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type managerInfo struct {
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// manager is notified about servers for this datacenter.
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manager *Manager
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// shutdownCh is only given to this manager so we can shut it down when
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// all servers for this datacenter are gone.
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shutdownCh chan struct{}
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}
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// areaInfo holds information about a given network area.
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type areaInfo struct {
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// cluster is the Serf instance for this network area.
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cluster RouterSerfCluster
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// pinger is used to ping servers in this network area when trying to
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// find a new, healthy server to talk to.
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pinger Pinger
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// managers maps datacenter names to managers for that datacenter in
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// this area.
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managers map[string]*managerInfo
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// useTLS specifies whether to use TLS to communicate for this network area.
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useTLS bool
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}
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// NewRouter returns a new Router with the given configuration.
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func NewRouter(logger hclog.Logger, localDatacenter, serverName string, tracker ServerTracker) *Router {
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if logger == nil {
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logger = hclog.New(&hclog.LoggerOptions{})
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}
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if tracker == nil {
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tracker = NoOpServerTracker{}
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}
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router := &Router{
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logger: logger.Named(logging.Router),
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localDatacenter: localDatacenter,
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serverName: serverName,
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areas: make(map[types.AreaID]*areaInfo),
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managers: make(map[string][]*Manager),
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grpcServerTracker: tracker,
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}
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// Hook the direct route lookup by default.
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router.routeFn = router.findDirectRoute
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return router
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}
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// Shutdown removes all areas from the router, which stops all their respective
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// managers. No new areas can be added after the router is shut down.
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func (r *Router) Shutdown() {
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r.Lock()
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defer r.Unlock()
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for areaID, area := range r.areas {
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for datacenter, info := range area.managers {
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r.removeManagerFromIndex(datacenter, info.manager)
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close(info.shutdownCh)
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}
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delete(r.areas, areaID)
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}
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r.isShutdown = true
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}
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// AddArea registers a new network area with the router.
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func (r *Router) AddArea(areaID types.AreaID, cluster RouterSerfCluster, pinger Pinger) error {
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r.Lock()
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defer r.Unlock()
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if r.isShutdown {
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return fmt.Errorf("cannot add area, router is shut down")
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}
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if _, ok := r.areas[areaID]; ok {
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return fmt.Errorf("area ID %q already exists", areaID)
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}
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area := &areaInfo{
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cluster: cluster,
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pinger: pinger,
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managers: make(map[string]*managerInfo),
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}
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r.areas[areaID] = area
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// always ensure we have a started manager for the LAN area
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if areaID == types.AreaLAN {
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r.logger.Info("Initializing LAN area manager")
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r.maybeInitializeManager(area, r.localDatacenter)
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}
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// Do an initial populate of the manager so that we don't have to wait
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// for events to fire. This lets us attempt to use all the known servers
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// initially, and then will quickly detect that they are failed if we
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// can't reach them.
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for _, m := range cluster.Members() {
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ok, parts := metadata.IsConsulServer(m)
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if !ok {
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if areaID != types.AreaLAN {
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r.logger.Warn("Non-server in server-only area",
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"non_server", m.Name,
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"area", areaID,
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)
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}
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continue
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}
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if err := r.addServer(areaID, area, parts); err != nil {
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return fmt.Errorf("failed to add server %q to area %q: %v", m.Name, areaID, err)
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}
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}
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return nil
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}
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// GetServerMetadataByAddr returns server metadata by dc and address. If it
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// didn't find anything, nil is returned.
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func (r *Router) GetServerMetadataByAddr(dc, addr string) *metadata.Server {
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r.RLock()
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defer r.RUnlock()
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if ms, ok := r.managers[dc]; ok {
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for _, m := range ms {
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for _, s := range m.getServerList().servers {
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if s.Addr.String() == addr {
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return s
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}
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}
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}
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}
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return nil
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}
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// removeManagerFromIndex does cleanup to take a manager out of the index of
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// datacenters. This assumes the lock is already held for writing, and will
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// panic if the given manager isn't found.
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func (r *Router) removeManagerFromIndex(datacenter string, manager *Manager) {
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managers := r.managers[datacenter]
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for i := 0; i < len(managers); i++ {
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if managers[i] == manager {
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r.managers[datacenter] = append(managers[:i], managers[i+1:]...)
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if len(r.managers[datacenter]) == 0 {
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delete(r.managers, datacenter)
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}
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return
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}
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}
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panic("managers index out of sync")
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}
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// Returns whether TLS is enabled for the given area ID
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func (r *Router) TLSEnabled(areaID types.AreaID) (bool, error) {
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r.RLock()
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defer r.RUnlock()
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area, ok := r.areas[areaID]
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if !ok {
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return false, fmt.Errorf("area ID %q does not exist", areaID)
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}
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return area.useTLS, nil
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}
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// RemoveArea removes an existing network area from the router.
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func (r *Router) RemoveArea(areaID types.AreaID) error {
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r.Lock()
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defer r.Unlock()
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area, ok := r.areas[areaID]
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if !ok {
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return fmt.Errorf("area ID %q does not exist", areaID)
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}
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// Remove all of this area's managers from the index and shut them down.
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for datacenter, info := range area.managers {
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r.removeManagerFromIndex(datacenter, info.manager)
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close(info.shutdownCh)
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}
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delete(r.areas, areaID)
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return nil
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}
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// maybeInitializeManager will initialize a new manager for the given area/dc
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// if its not already created. Calling this function should only be done if
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// holding a write lock on the Router.
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func (r *Router) maybeInitializeManager(area *areaInfo, dc string) *Manager {
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info, ok := area.managers[dc]
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if ok {
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return info.manager
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}
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shutdownCh := make(chan struct{})
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rb := r.grpcServerTracker.NewRebalancer(dc)
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manager := New(r.logger, shutdownCh, area.cluster, area.pinger, r.serverName, rb)
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info = &managerInfo{
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manager: manager,
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shutdownCh: shutdownCh,
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}
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area.managers[dc] = info
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managers := r.managers[dc]
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r.managers[dc] = append(managers, manager)
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go manager.Run()
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return manager
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}
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// addServer does the work of AddServer once the write lock is held.
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func (r *Router) addServer(areaID types.AreaID, area *areaInfo, s *metadata.Server) error {
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// Make the manager on the fly if this is the first we've seen of it,
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// and add it to the index.
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manager := r.maybeInitializeManager(area, s.Datacenter)
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// If TLS is enabled for the area, set it on the server so the manager
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// knows to use TLS when pinging it.
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if area.useTLS {
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s.UseTLS = true
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}
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manager.AddServer(s)
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r.grpcServerTracker.AddServer(areaID, s)
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return nil
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}
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// AddServer should be called whenever a new server joins an area. This is
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// typically hooked into the Serf event handler area for this area.
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func (r *Router) AddServer(areaID types.AreaID, s *metadata.Server) error {
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r.Lock()
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defer r.Unlock()
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area, ok := r.areas[areaID]
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if !ok {
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return fmt.Errorf("area ID %q does not exist", areaID)
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}
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return r.addServer(areaID, area, s)
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}
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// RemoveServer should be called whenever a server is removed from an area. This
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// is typically hooked into the Serf event handler area for this area.
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func (r *Router) RemoveServer(areaID types.AreaID, s *metadata.Server) error {
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r.Lock()
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defer r.Unlock()
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area, ok := r.areas[areaID]
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if !ok {
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return fmt.Errorf("area ID %q does not exist", areaID)
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}
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// If the manager has already been removed we just quietly exit. This
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// can get called by Serf events, so the timing isn't totally
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// deterministic.
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info, ok := area.managers[s.Datacenter]
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if !ok {
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return nil
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}
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info.manager.RemoveServer(s)
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r.grpcServerTracker.RemoveServer(areaID, s)
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// If this manager is empty then remove it so we don't accumulate cruft
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// and waste time during request routing.
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if num := info.manager.NumServers(); num == 0 {
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r.removeManagerFromIndex(s.Datacenter, info.manager)
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close(info.shutdownCh)
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delete(area.managers, s.Datacenter)
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}
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return nil
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}
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// FailServer should be called whenever a server is failed in an area. This
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// is typically hooked into the Serf event handler area for this area. We will
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// immediately shift traffic away from this server, but it will remain in the
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// list of servers.
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func (r *Router) FailServer(areaID types.AreaID, s *metadata.Server) error {
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r.RLock()
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defer r.RUnlock()
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area, ok := r.areas[areaID]
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if !ok {
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return fmt.Errorf("area ID %q does not exist", areaID)
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}
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// If the manager has already been removed we just quietly exit. This
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// can get called by Serf events, so the timing isn't totally
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// deterministic.
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info, ok := area.managers[s.Datacenter]
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if !ok {
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return nil
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}
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info.manager.NotifyFailedServer(s)
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return nil
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}
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// FindRoute returns a healthy server with a route to the given datacenter. The
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// Boolean return parameter will indicate if a server was available. In some
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// cases this may return a best-effort unhealthy server that can be used for a
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// connection attempt. If any problem occurs with the given server, the caller
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// should feed that back to the manager associated with the server, which is
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// also returned, by calling NotifyFailedServer().
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func (r *Router) FindRoute(datacenter string) (*Manager, *metadata.Server, bool) {
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return r.routeFn(datacenter)
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}
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// FindLANRoute returns a healthy server within the local datacenter. In some
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// cases this may return a best-effort unhealthy server that can be used for a
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// connection attempt. If any problem occurs with the given server, the caller
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// should feed that back to the manager associated with the server, which is
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// also returned, by calling NotifyFailedServer().
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func (r *Router) FindLANRoute() (*Manager, *metadata.Server) {
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mgr := r.GetLANManager()
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if mgr == nil {
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return nil, nil
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}
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return mgr, mgr.FindServer()
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}
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// FindLANServer will look for a server in the local datacenter.
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// This function may return a nil value if no server is available.
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func (r *Router) FindLANServer() *metadata.Server {
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_, srv := r.FindLANRoute()
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return srv
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}
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// findDirectRoute looks for a route to the given datacenter if it's directly
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// adjacent to the server.
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func (r *Router) findDirectRoute(datacenter string) (*Manager, *metadata.Server, bool) {
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r.RLock()
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defer r.RUnlock()
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// Get the list of managers for this datacenter. This will usually just
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// have one entry, but it's possible to have a user-defined area + WAN.
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managers, ok := r.managers[datacenter]
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if !ok {
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return nil, nil, false
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}
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// Try each manager until we get a server.
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for _, manager := range managers {
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if manager.IsOffline() {
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continue
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}
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if s := manager.FindServer(); s != nil {
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return manager, s, true
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}
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}
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// Didn't find a route (even via an unhealthy server).
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return nil, nil, false
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}
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// CheckServers returns thwo things
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// 1. bool to indicate whether any servers were processed
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// 2. error if any propagated from the fn
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//
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// The fn called should return a bool indicating whether checks should continue and an error
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// If an error is returned then checks will stop immediately
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func (r *Router) CheckServers(dc string, fn func(srv *metadata.Server) bool) {
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r.RLock()
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defer r.RUnlock()
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managers, ok := r.managers[dc]
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if !ok {
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return
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}
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for _, m := range managers {
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if !m.checkServers(fn) {
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return
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}
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}
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}
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// GetDatacenters returns a list of datacenters known to the router, sorted by
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// name.
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func (r *Router) GetDatacenters() []string {
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r.RLock()
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defer r.RUnlock()
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dcs := make([]string, 0, len(r.managers))
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for dc := range r.managers {
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dcs = append(dcs, dc)
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}
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sort.Strings(dcs)
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return dcs
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}
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// GetRemoteDatacenters returns a list of remote datacenters known to the router, sorted by
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// name.
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func (r *Router) GetRemoteDatacenters(local string) []string {
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r.RLock()
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defer r.RUnlock()
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dcs := make([]string, 0, len(r.managers))
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for dc := range r.managers {
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if dc == local {
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continue
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}
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dcs = append(dcs, dc)
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}
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sort.Strings(dcs)
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return dcs
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}
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// HasDatacenter checks whether dc is defined in WAN
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func (r *Router) HasDatacenter(dc string) bool {
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r.RLock()
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defer r.RUnlock()
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_, ok := r.managers[dc]
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return ok
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}
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// GetLANManager returns the Manager for the LAN area and the local datacenter
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func (r *Router) GetLANManager() *Manager {
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r.RLock()
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defer r.RUnlock()
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area, ok := r.areas[types.AreaLAN]
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if !ok {
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return nil
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}
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managerInfo, ok := area.managers[r.localDatacenter]
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if !ok {
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return nil
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}
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return managerInfo.manager
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}
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// datacenterSorter takes a list of DC names and a parallel vector of distances
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// and implements sort.Interface, keeping both structures coherent and sorting
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// by distance.
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type datacenterSorter struct {
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Names []string
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Vec []float64
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}
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// See sort.Interface.
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func (n *datacenterSorter) Len() int {
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return len(n.Names)
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}
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// See sort.Interface.
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func (n *datacenterSorter) Swap(i, j int) {
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n.Names[i], n.Names[j] = n.Names[j], n.Names[i]
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n.Vec[i], n.Vec[j] = n.Vec[j], n.Vec[i]
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}
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// See sort.Interface.
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func (n *datacenterSorter) Less(i, j int) bool {
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return n.Vec[i] < n.Vec[j]
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}
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// GetDatacentersByDistance returns a list of datacenters known to the router,
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// sorted by median RTT from this server to the servers in each datacenter. If
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// there are multiple areas that reach a given datacenter, this will use the
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// lowest RTT for the sort.
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func (r *Router) GetDatacentersByDistance() ([]string, error) {
|
|
r.RLock()
|
|
defer r.RUnlock()
|
|
|
|
// Go through each area and aggregate the median RTT from the current
|
|
// server to the other servers in each datacenter.
|
|
dcs := make(map[string]float64)
|
|
for areaID, info := range r.areas {
|
|
index := make(map[string][]float64)
|
|
coord, err := info.cluster.GetCoordinate()
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
for _, m := range info.cluster.Members() {
|
|
ok, parts := metadata.IsConsulServer(m)
|
|
if !ok {
|
|
if areaID != types.AreaLAN {
|
|
r.logger.Warn("Non-server in server-only area",
|
|
"non_server", m.Name,
|
|
"area", areaID,
|
|
"func", "GetDatacentersByDistance",
|
|
)
|
|
}
|
|
continue
|
|
}
|
|
|
|
if m.Status == serf.StatusLeft {
|
|
r.logger.Debug("server in area left, skipping",
|
|
"server", m.Name,
|
|
"area", areaID,
|
|
"func", "GetDatacentersByDistance",
|
|
)
|
|
continue
|
|
}
|
|
|
|
existing := index[parts.Datacenter]
|
|
if parts.Datacenter == r.localDatacenter {
|
|
// Everything in the local datacenter looks like zero RTT.
|
|
index[parts.Datacenter] = append(existing, 0.0)
|
|
} else {
|
|
// It's OK to get a nil coordinate back, ComputeDistance
|
|
// will put the RTT at positive infinity.
|
|
other, _ := info.cluster.GetCachedCoordinate(parts.Name)
|
|
rtt := lib.ComputeDistance(coord, other)
|
|
index[parts.Datacenter] = append(existing, rtt)
|
|
}
|
|
}
|
|
|
|
// Compute the median RTT between this server and the servers
|
|
// in each datacenter. We accumulate the lowest RTT to each DC
|
|
// in the master map, since a given DC might appear in multiple
|
|
// areas.
|
|
for dc, rtts := range index {
|
|
sort.Float64s(rtts)
|
|
rtt := rtts[len(rtts)/2]
|
|
|
|
current, ok := dcs[dc]
|
|
if !ok || (ok && rtt < current) {
|
|
dcs[dc] = rtt
|
|
}
|
|
}
|
|
}
|
|
|
|
// First sort by DC name, since we do a stable sort later.
|
|
names := make([]string, 0, len(dcs))
|
|
for dc := range dcs {
|
|
names = append(names, dc)
|
|
}
|
|
sort.Strings(names)
|
|
|
|
// Then stable sort by median RTT.
|
|
rtts := make([]float64, 0, len(dcs))
|
|
for _, dc := range names {
|
|
rtts = append(rtts, dcs[dc])
|
|
}
|
|
sort.Stable(&datacenterSorter{names, rtts})
|
|
return names, nil
|
|
}
|
|
|
|
// GetDatacenterMaps returns a structure with the raw network coordinates of
|
|
// each known server, organized by datacenter and network area.
|
|
func (r *Router) GetDatacenterMaps() ([]structs.DatacenterMap, error) {
|
|
r.RLock()
|
|
defer r.RUnlock()
|
|
|
|
var maps []structs.DatacenterMap
|
|
for areaID, info := range r.areas {
|
|
index := make(map[string]structs.Coordinates)
|
|
for _, m := range info.cluster.Members() {
|
|
ok, parts := metadata.IsConsulServer(m)
|
|
if !ok {
|
|
if areaID != types.AreaLAN {
|
|
r.logger.Warn("Non-server in server-only area",
|
|
"non_server", m.Name,
|
|
"area", areaID,
|
|
"func", "GetDatacenterMaps",
|
|
)
|
|
}
|
|
continue
|
|
}
|
|
|
|
if m.Status == serf.StatusLeft {
|
|
r.logger.Debug("server in area left, skipping",
|
|
"server", m.Name,
|
|
"area", areaID,
|
|
"func", "GetDatacenterMaps",
|
|
)
|
|
continue
|
|
}
|
|
|
|
coord, ok := info.cluster.GetCachedCoordinate(parts.Name)
|
|
if ok {
|
|
entry := &structs.Coordinate{
|
|
Node: parts.Name,
|
|
Coord: coord,
|
|
}
|
|
existing := index[parts.Datacenter]
|
|
index[parts.Datacenter] = append(existing, entry)
|
|
}
|
|
}
|
|
|
|
for dc, coords := range index {
|
|
entry := structs.DatacenterMap{
|
|
Datacenter: dc,
|
|
AreaID: areaID,
|
|
Coordinates: coords,
|
|
}
|
|
maps = append(maps, entry)
|
|
}
|
|
}
|
|
return maps, nil
|
|
}
|