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agent.go
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agent.go
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package agent
import (
"context"
"crypto/sha512"
"crypto/tls"
"encoding/json"
"fmt"
"io"
"io/ioutil"
"log"
"net"
"net/http"
"os"
"path/filepath"
"strconv"
"strings"
"sync"
"time"
"github.com/armon/go-metrics"
"github.com/hashicorp/consul/acl"
"github.com/hashicorp/consul/agent/config"
"github.com/hashicorp/consul/agent/consul"
"github.com/hashicorp/consul/agent/structs"
"github.com/hashicorp/consul/agent/systemd"
"github.com/hashicorp/consul/agent/token"
"github.com/hashicorp/consul/api"
"github.com/hashicorp/consul/ipaddr"
"github.com/hashicorp/consul/lib"
"github.com/hashicorp/consul/logger"
"github.com/hashicorp/consul/types"
"github.com/hashicorp/consul/watch"
"github.com/hashicorp/go-uuid"
"github.com/hashicorp/memberlist"
"github.com/hashicorp/raft"
"github.com/hashicorp/serf/serf"
"github.com/shirou/gopsutil/host"
)
const (
// Path to save agent service definitions
servicesDir = "services"
// Path to save local agent checks
checksDir = "checks"
checkStateDir = "checks/state"
// Default reasons for node/service maintenance mode
defaultNodeMaintReason = "Maintenance mode is enabled for this node, " +
"but no reason was provided. This is a default message."
defaultServiceMaintReason = "Maintenance mode is enabled for this " +
"service, but no reason was provided. This is a default message."
)
// delegate defines the interface shared by both
// consul.Client and consul.Server.
type delegate interface {
Encrypted() bool
GetLANCoordinate() (lib.CoordinateSet, error)
Leave() error
LANMembers() []serf.Member
LANMembersAllSegments() ([]serf.Member, error)
LANSegmentMembers(segment string) ([]serf.Member, error)
LocalMember() serf.Member
JoinLAN(addrs []string) (n int, err error)
RemoveFailedNode(node string) error
RPC(method string, args interface{}, reply interface{}) error
SnapshotRPC(args *structs.SnapshotRequest, in io.Reader, out io.Writer, replyFn structs.SnapshotReplyFn) error
Shutdown() error
Stats() map[string]map[string]string
}
// notifier is called after a successful JoinLAN.
type notifier interface {
Notify(string) error
}
// The agent is the long running process that is run on every machine.
// It exposes an RPC interface that is used by the CLI to control the
// agent. The agent runs the query interfaces like HTTP, DNS, and RPC.
// However, it can run in either a client, or server mode. In server
// mode, it runs a full Consul server. In client-only mode, it only forwards
// requests to other Consul servers.
type Agent struct {
// config is the agent configuration.
config *config.RuntimeConfig
// Used for writing our logs
logger *log.Logger
// Output sink for logs
LogOutput io.Writer
// Used for streaming logs to
LogWriter *logger.LogWriter
// In-memory sink used for collecting metrics
MemSink *metrics.InmemSink
// delegate is either a *consul.Server or *consul.Client
// depending on the configuration
delegate delegate
// acls is an object that helps manage local ACL enforcement.
acls *aclManager
// state stores a local representation of the node,
// services and checks. Used for anti-entropy.
state *localState
// checkReapAfter maps the check ID to a timeout after which we should
// reap its associated service
checkReapAfter map[types.CheckID]time.Duration
// checkMonitors maps the check ID to an associated monitor
checkMonitors map[types.CheckID]*CheckMonitor
// checkHTTPs maps the check ID to an associated HTTP check
checkHTTPs map[types.CheckID]*CheckHTTP
// checkTCPs maps the check ID to an associated TCP check
checkTCPs map[types.CheckID]*CheckTCP
// checkTTLs maps the check ID to an associated check TTL
checkTTLs map[types.CheckID]*CheckTTL
// checkDockers maps the check ID to an associated Docker Exec based check
checkDockers map[types.CheckID]*CheckDocker
// checkLock protects updates to the check* maps
checkLock sync.Mutex
// dockerClient is the client for performing docker health checks.
dockerClient *DockerClient
// eventCh is used to receive user events
eventCh chan serf.UserEvent
// eventBuf stores the most recent events in a ring buffer
// using eventIndex as the next index to insert into. This
// is guarded by eventLock. When an insert happens, the
// eventNotify group is notified.
eventBuf []*UserEvent
eventIndex int
eventLock sync.RWMutex
eventNotify NotifyGroup
reloadCh chan chan error
shutdown bool
shutdownCh chan struct{}
shutdownLock sync.Mutex
// joinLANNotifier is called after a successful JoinLAN.
joinLANNotifier notifier
// retryJoinCh transports errors from the retry join
// attempts.
retryJoinCh chan error
// endpoints maps unique RPC endpoint names to common ones
// to allow overriding of RPC handlers since the golang
// net/rpc server does not allow this.
endpoints map[string]string
endpointsLock sync.RWMutex
// dnsServer provides the DNS API
dnsServers []*DNSServer
// httpServers provides the HTTP API on various endpoints
httpServers []*HTTPServer
// wgServers is the wait group for all HTTP and DNS servers
wgServers sync.WaitGroup
// watchPlans tracks all the currently-running watch plans for the
// agent.
watchPlans []*watch.Plan
// tokens holds ACL tokens initially from the configuration, but can
// be updated at runtime, so should always be used instead of going to
// the configuration directly.
tokens *token.Store
}
func New(c *config.RuntimeConfig) (*Agent, error) {
if c.Datacenter == "" {
return nil, fmt.Errorf("Must configure a Datacenter")
}
if c.DataDir == "" && !c.DevMode {
return nil, fmt.Errorf("Must configure a DataDir")
}
acls, err := newACLManager(c)
if err != nil {
return nil, err
}
a := &Agent{
config: c,
acls: acls,
checkReapAfter: make(map[types.CheckID]time.Duration),
checkMonitors: make(map[types.CheckID]*CheckMonitor),
checkTTLs: make(map[types.CheckID]*CheckTTL),
checkHTTPs: make(map[types.CheckID]*CheckHTTP),
checkTCPs: make(map[types.CheckID]*CheckTCP),
checkDockers: make(map[types.CheckID]*CheckDocker),
eventCh: make(chan serf.UserEvent, 1024),
eventBuf: make([]*UserEvent, 256),
joinLANNotifier: &systemd.Notifier{},
reloadCh: make(chan chan error),
retryJoinCh: make(chan error),
shutdownCh: make(chan struct{}),
endpoints: make(map[string]string),
tokens: new(token.Store),
}
// Set up the initial state of the token store based on the config.
a.tokens.UpdateUserToken(a.config.ACLToken)
a.tokens.UpdateAgentToken(a.config.ACLAgentToken)
a.tokens.UpdateAgentMasterToken(a.config.ACLAgentMasterToken)
a.tokens.UpdateACLReplicationToken(a.config.ACLReplicationToken)
return a, nil
}
func (a *Agent) Start() error {
c := a.config
logOutput := a.LogOutput
if a.logger == nil {
if logOutput == nil {
logOutput = os.Stderr
}
a.logger = log.New(logOutput, "", log.LstdFlags)
}
// Retrieve or generate the node ID before setting up the rest of the
// agent, which depends on it.
if err := a.setupNodeID(c); err != nil {
return fmt.Errorf("Failed to setup node ID: %v", err)
}
// create the local state
a.state = NewLocalState(c, a.logger, a.tokens)
// create the config for the rpc server/client
consulCfg, err := a.consulConfig()
if err != nil {
return err
}
// link consul client/server with the state
consulCfg.ServerUp = a.state.ConsulServerUp
// Setup either the client or the server.
if c.ServerMode {
server, err := consul.NewServerLogger(consulCfg, a.logger, a.tokens)
if err != nil {
return fmt.Errorf("Failed to start Consul server: %v", err)
}
a.delegate = server
a.state.delegate = server
} else {
client, err := consul.NewClientLogger(consulCfg, a.logger)
if err != nil {
return fmt.Errorf("Failed to start Consul client: %v", err)
}
a.delegate = client
a.state.delegate = client
}
// Load checks/services/metadata.
if err := a.loadServices(c); err != nil {
return err
}
if err := a.loadChecks(c); err != nil {
return err
}
if err := a.loadMetadata(c); err != nil {
return err
}
// Start watching for critical services to deregister, based on their
// checks.
go a.reapServices()
// Start handling events.
go a.handleEvents()
// Start sending network coordinate to the server.
if !c.DisableCoordinates {
go a.sendCoordinate()
}
// Write out the PID file if necessary.
if err := a.storePid(); err != nil {
return err
}
// start DNS servers
if err := a.listenAndServeDNS(); err != nil {
return err
}
// create listeners and unstarted servers
// see comment on listenHTTP why we are doing this
httpln, err := a.listenHTTP()
if err != nil {
return err
}
// start HTTP and HTTPS servers
for _, l := range httpln {
srv := NewHTTPServer(l.Addr(), a)
if err := a.serveHTTP(l, srv); err != nil {
return err
}
a.httpServers = append(a.httpServers, srv)
}
// register watches
if err := a.reloadWatches(a.config); err != nil {
return err
}
// start retry join
go a.retryJoinLAN()
go a.retryJoinWAN()
return nil
}
func (a *Agent) listenAndServeDNS() error {
notif := make(chan net.Addr, len(a.config.DNSAddrs))
for _, addr := range a.config.DNSAddrs {
// create server
s, err := NewDNSServer(a)
if err != nil {
return err
}
a.dnsServers = append(a.dnsServers, s)
// start server
a.wgServers.Add(1)
go func(addr net.Addr) {
defer a.wgServers.Done()
err := s.ListenAndServe(addr.Network(), addr.String(), func() { notif <- addr })
if err != nil && !strings.Contains(err.Error(), "accept") {
a.logger.Printf("[ERR] agent: Error starting DNS server %s (%s): %v", addr.String(), addr.Network(), err)
}
}(addr)
}
// wait for servers to be up
timeout := time.After(time.Second)
for range a.config.DNSAddrs {
select {
case addr := <-notif:
a.logger.Printf("[INFO] agent: Started DNS server %s (%s)", addr.String(), addr.Network())
continue
case <-timeout:
return fmt.Errorf("agent: timeout starting DNS servers")
}
}
return nil
}
// listenHTTP binds listeners to the provided addresses and also returns
// pre-configured HTTP servers which are not yet started. The motivation is
// that in the current startup/shutdown setup we de-couple the listener
// creation from the server startup assuming that if any of the listeners
// cannot be bound we fail immediately and later failures do not occur.
// Therefore, starting a server with a running listener is assumed to not
// produce an error.
//
// The second motivation is that an HTTPS server needs to use the same TLSConfig
// on both the listener and the HTTP server. When listeners and servers are
// created at different times this becomes difficult to handle without keeping
// the TLS configuration somewhere or recreating it.
//
// This approach should ultimately be refactored to the point where we just
// start the server and any error should trigger a proper shutdown of the agent.
func (a *Agent) listenHTTP() ([]net.Listener, error) {
var ln []net.Listener
start := func(proto string, addrs []net.Addr) error {
for _, addr := range addrs {
var l net.Listener
var err error
switch x := addr.(type) {
case *net.UnixAddr:
l, err = a.listenSocket(x.Name)
if err != nil {
return err
}
case *net.TCPAddr:
l, err = net.Listen("tcp", x.String())
if err != nil {
return err
}
l = &tcpKeepAliveListener{l.(*net.TCPListener)}
if proto == "https" {
tlscfg, err := a.config.IncomingHTTPSConfig()
if err != nil {
return err
}
l = tls.NewListener(l, tlscfg)
}
default:
return fmt.Errorf("unsupported address type %T", addr)
}
ln = append(ln, l)
}
return nil
}
if err := start("http", a.config.HTTPAddrs); err != nil {
for _, l := range ln {
l.Close()
}
return nil, err
}
if err := start("https", a.config.HTTPSAddrs); err != nil {
for _, l := range ln {
l.Close()
}
return nil, err
}
return ln, nil
}
// tcpKeepAliveListener sets TCP keep-alive timeouts on accepted
// connections. It's used by NewHttpServer so dead TCP connections
// eventually go away.
type tcpKeepAliveListener struct {
*net.TCPListener
}
func (ln tcpKeepAliveListener) Accept() (c net.Conn, err error) {
tc, err := ln.AcceptTCP()
if err != nil {
return
}
tc.SetKeepAlive(true)
tc.SetKeepAlivePeriod(30 * time.Second)
return tc, nil
}
func (a *Agent) listenSocket(path string) (net.Listener, error) {
if _, err := os.Stat(path); !os.IsNotExist(err) {
a.logger.Printf("[WARN] agent: Replacing socket %q", path)
}
if err := os.Remove(path); err != nil && !os.IsNotExist(err) {
return nil, fmt.Errorf("error removing socket file: %s", err)
}
l, err := net.Listen("unix", path)
if err != nil {
return nil, err
}
user, group, mode := a.config.UnixSocketUser, a.config.UnixSocketGroup, a.config.UnixSocketMode
if err := setFilePermissions(path, user, group, mode); err != nil {
return nil, fmt.Errorf("Failed setting up socket: %s", err)
}
return l, nil
}
func (a *Agent) serveHTTP(l net.Listener, srv *HTTPServer) error {
// https://github.com/golang/go/issues/20239
//
// In go.8.1 there is a race between Serve and Shutdown. If
// Shutdown is called before the Serve go routine was scheduled then
// the Serve go routine never returns. This deadlocks the agent
// shutdown for some tests since it will wait forever.
//
// Since we need to check for an unexported type (*tls.listener)
// we cannot just perform a type check since the compiler won't let
// us. We might be able to use reflection but the fmt.Sprintf() hack
// works just as well.
srv.proto = "http"
if strings.Contains("*tls.listener", fmt.Sprintf("%T", l)) {
srv.proto = "https"
}
notif := make(chan net.Addr)
a.wgServers.Add(1)
go func() {
defer a.wgServers.Done()
notif <- l.Addr()
err := srv.Serve(l)
if err != nil && err != http.ErrServerClosed {
a.logger.Print(err)
}
}()
select {
case addr := <-notif:
if srv.proto == "https" {
a.logger.Printf("[INFO] agent: Started HTTPS server on %s (%s)", addr.String(), addr.Network())
} else {
a.logger.Printf("[INFO] agent: Started HTTP server on %s (%s)", addr.String(), addr.Network())
}
return nil
case <-time.After(time.Second):
return fmt.Errorf("agent: timeout starting HTTP servers")
}
}
// reloadWatches stops any existing watch plans and attempts to load the given
// set of watches.
func (a *Agent) reloadWatches(cfg *config.RuntimeConfig) error {
// Stop the current watches.
for _, wp := range a.watchPlans {
wp.Stop()
}
a.watchPlans = nil
// Return if there are no watches now.
if len(cfg.Watches) == 0 {
return nil
}
// Watches use the API to talk to this agent, so that must be enabled.
if len(cfg.HTTPAddrs) == 0 && len(cfg.HTTPSAddrs) == 0 {
return fmt.Errorf("watch plans require an HTTP or HTTPS endpoint")
}
// Compile the watches
var watchPlans []*watch.Plan
for _, params := range cfg.Watches {
// Parse the watches, excluding the handler
wp, err := watch.ParseExempt(params, []string{"handler", "args"})
if err != nil {
return fmt.Errorf("Failed to parse watch (%#v): %v", params, err)
}
// Get the handler and subprocess arguments
handler, hasHandler := wp.Exempt["handler"]
args, hasArgs := wp.Exempt["args"]
if hasHandler {
a.logger.Printf("[WARN] agent: The 'handler' field in watches has been deprecated " +
"and replaced with the 'args' field. See https://www.consul.io/docs/agent/watches.html")
}
if _, ok := handler.(string); hasHandler && !ok {
return fmt.Errorf("Watch handler must be a string")
}
if raw, ok := args.([]interface{}); hasArgs && ok {
var parsed []string
for _, arg := range raw {
if v, ok := arg.(string); !ok {
return fmt.Errorf("Watch args must be a list of strings")
} else {
parsed = append(parsed, v)
}
}
wp.Exempt["args"] = parsed
} else if hasArgs && !ok {
return fmt.Errorf("Watch args must be a list of strings")
}
if hasHandler && hasArgs {
return fmt.Errorf("Cannot define both watch handler and args")
}
if !hasHandler && !hasArgs {
return fmt.Errorf("Must define either watch handler or args")
}
// Store the watch plan
watchPlans = append(watchPlans, wp)
}
// Determine the primary http(s) endpoint.
var netaddr net.Addr
if len(cfg.HTTPAddrs) > 0 {
netaddr = cfg.HTTPAddrs[0]
} else {
netaddr = cfg.HTTPSAddrs[0]
}
addr := netaddr.String()
if netaddr.Network() == "unix" {
addr = "unix://" + addr
}
// Fire off a goroutine for each new watch plan.
for _, wp := range watchPlans {
a.watchPlans = append(a.watchPlans, wp)
go func(wp *watch.Plan) {
var handler interface{}
if h, ok := wp.Exempt["handler"]; ok {
handler = h
} else {
handler = wp.Exempt["args"]
}
wp.Handler = makeWatchHandler(a.LogOutput, handler)
wp.LogOutput = a.LogOutput
if err := wp.Run(addr); err != nil {
a.logger.Printf("[ERR] Failed to run watch: %v", err)
}
}(wp)
}
return nil
}
// consulConfig is used to return a consul configuration
func (a *Agent) consulConfig() (*consul.Config, error) {
// Start with the provided config or default config
base := consul.DefaultConfig()
// This is set when the agent starts up
base.NodeID = a.config.NodeID
// Apply dev mode
base.DevMode = a.config.DevMode
// Override with our config
// todo(fs): these are now always set in the runtime config so we can simplify this
// todo(fs): or is there a reason to keep it like that?
base.Datacenter = a.config.Datacenter
base.DataDir = a.config.DataDir
base.NodeName = a.config.NodeName
base.CoordinateUpdateBatchSize = a.config.ConsulCoordinateUpdateBatchSize
base.CoordinateUpdateMaxBatches = a.config.ConsulCoordinateUpdateMaxBatches
base.CoordinateUpdatePeriod = a.config.ConsulCoordinateUpdatePeriod
base.RaftConfig.HeartbeatTimeout = a.config.ConsulRaftHeartbeatTimeout
base.RaftConfig.LeaderLeaseTimeout = a.config.ConsulRaftLeaderLeaseTimeout
base.RaftConfig.ElectionTimeout = a.config.ConsulRaftElectionTimeout
base.SerfLANConfig.MemberlistConfig.BindAddr = a.config.SerfBindAddrLAN.IP.String()
base.SerfLANConfig.MemberlistConfig.BindPort = a.config.SerfBindAddrLAN.Port
base.SerfLANConfig.MemberlistConfig.AdvertiseAddr = a.config.SerfAdvertiseAddrLAN.IP.String()
base.SerfLANConfig.MemberlistConfig.AdvertisePort = a.config.SerfAdvertiseAddrLAN.Port
base.SerfLANConfig.MemberlistConfig.GossipVerifyIncoming = a.config.EncryptVerifyIncoming
base.SerfLANConfig.MemberlistConfig.GossipVerifyOutgoing = a.config.EncryptVerifyOutgoing
base.SerfLANConfig.MemberlistConfig.GossipInterval = a.config.ConsulSerfLANGossipInterval
base.SerfLANConfig.MemberlistConfig.ProbeInterval = a.config.ConsulSerfLANProbeInterval
base.SerfLANConfig.MemberlistConfig.ProbeTimeout = a.config.ConsulSerfLANProbeTimeout
base.SerfLANConfig.MemberlistConfig.SuspicionMult = a.config.ConsulSerfLANSuspicionMult
base.SerfWANConfig.MemberlistConfig.BindAddr = a.config.SerfBindAddrWAN.IP.String()
base.SerfWANConfig.MemberlistConfig.BindPort = a.config.SerfBindAddrWAN.Port
base.SerfWANConfig.MemberlistConfig.AdvertiseAddr = a.config.SerfAdvertiseAddrWAN.IP.String()
base.SerfWANConfig.MemberlistConfig.AdvertisePort = a.config.SerfAdvertiseAddrWAN.Port
base.SerfWANConfig.MemberlistConfig.GossipVerifyIncoming = a.config.EncryptVerifyIncoming
base.SerfWANConfig.MemberlistConfig.GossipVerifyOutgoing = a.config.EncryptVerifyOutgoing
base.SerfWANConfig.MemberlistConfig.GossipInterval = a.config.ConsulSerfWANGossipInterval
base.SerfWANConfig.MemberlistConfig.ProbeInterval = a.config.ConsulSerfWANProbeInterval
base.SerfWANConfig.MemberlistConfig.ProbeTimeout = a.config.ConsulSerfWANProbeTimeout
base.SerfWANConfig.MemberlistConfig.SuspicionMult = a.config.ConsulSerfWANSuspicionMult
base.RPCAddr = a.config.RPCBindAddr
base.RPCAdvertise = a.config.RPCAdvertiseAddr
if a.config.ReconnectTimeoutLAN != 0 {
base.SerfLANConfig.ReconnectTimeout = a.config.ReconnectTimeoutLAN
}
if a.config.ReconnectTimeoutWAN != 0 {
base.SerfWANConfig.ReconnectTimeout = a.config.ReconnectTimeoutWAN
}
base.Segment = a.config.SegmentName
if len(a.config.Segments) > 0 {
segments, err := a.segmentConfig()
if err != nil {
return nil, err
}
base.Segments = segments
}
if a.config.Bootstrap {
base.Bootstrap = true
}
if a.config.RejoinAfterLeave {
base.RejoinAfterLeave = true
}
if a.config.BootstrapExpect != 0 {
base.BootstrapExpect = a.config.BootstrapExpect
}
if a.config.RPCProtocol > 0 {
base.ProtocolVersion = uint8(a.config.RPCProtocol)
}
if a.config.RaftProtocol != 0 {
base.RaftConfig.ProtocolVersion = raft.ProtocolVersion(a.config.RaftProtocol)
}
if a.config.ACLMasterToken != "" {
base.ACLMasterToken = a.config.ACLMasterToken
}
if a.config.ACLDatacenter != "" {
base.ACLDatacenter = a.config.ACLDatacenter
}
if a.config.ACLTTL != 0 {
base.ACLTTL = a.config.ACLTTL
}
if a.config.ACLDefaultPolicy != "" {
base.ACLDefaultPolicy = a.config.ACLDefaultPolicy
}
if a.config.ACLDownPolicy != "" {
base.ACLDownPolicy = a.config.ACLDownPolicy
}
base.EnableACLReplication = a.config.EnableACLReplication
if a.config.ACLEnforceVersion8 {
base.ACLEnforceVersion8 = a.config.ACLEnforceVersion8
}
if a.config.ACLEnableKeyListPolicy {
base.ACLEnableKeyListPolicy = a.config.ACLEnableKeyListPolicy
}
if a.config.SessionTTLMin != 0 {
base.SessionTTLMin = a.config.SessionTTLMin
}
if a.config.AutopilotCleanupDeadServers {
base.AutopilotConfig.CleanupDeadServers = a.config.AutopilotCleanupDeadServers
}
if a.config.AutopilotLastContactThreshold != 0 {
base.AutopilotConfig.LastContactThreshold = a.config.AutopilotLastContactThreshold
}
if a.config.AutopilotMaxTrailingLogs != 0 {
base.AutopilotConfig.MaxTrailingLogs = uint64(a.config.AutopilotMaxTrailingLogs)
}
if a.config.AutopilotServerStabilizationTime != 0 {
base.AutopilotConfig.ServerStabilizationTime = a.config.AutopilotServerStabilizationTime
}
if a.config.NonVotingServer {
base.NonVoter = a.config.NonVotingServer
}
if a.config.AutopilotRedundancyZoneTag != "" {
base.AutopilotConfig.RedundancyZoneTag = a.config.AutopilotRedundancyZoneTag
}
if a.config.AutopilotDisableUpgradeMigration {
base.AutopilotConfig.DisableUpgradeMigration = a.config.AutopilotDisableUpgradeMigration
}
if a.config.AutopilotUpgradeVersionTag != "" {
base.AutopilotConfig.UpgradeVersionTag = a.config.AutopilotUpgradeVersionTag
}
// make sure the advertise address is always set
if base.RPCAdvertise == nil {
base.RPCAdvertise = base.RPCAddr
}
// Rate limiting for RPC calls.
if a.config.RPCRateLimit > 0 {
base.RPCRate = a.config.RPCRateLimit
}
if a.config.RPCMaxBurst > 0 {
base.RPCMaxBurst = a.config.RPCMaxBurst
}
// RPC-related performance configs.
if a.config.RPCHoldTimeout > 0 {
base.RPCHoldTimeout = a.config.RPCHoldTimeout
}
if a.config.LeaveDrainTime > 0 {
base.LeaveDrainTime = a.config.LeaveDrainTime
}
// set the src address for outgoing rpc connections
// Use port 0 so that outgoing connections use a random port.
if !ipaddr.IsAny(base.RPCAddr.IP) {
base.RPCSrcAddr = &net.TCPAddr{IP: base.RPCAddr.IP}
}
// Format the build string
revision := a.config.Revision
if len(revision) > 8 {
revision = revision[:8]
}
base.Build = fmt.Sprintf("%s%s:%s", a.config.Version, a.config.VersionPrerelease, revision)
// Copy the TLS configuration
base.VerifyIncoming = a.config.VerifyIncoming || a.config.VerifyIncomingRPC
if a.config.CAPath != "" || a.config.CAFile != "" {
base.UseTLS = true
}
base.VerifyOutgoing = a.config.VerifyOutgoing
base.VerifyServerHostname = a.config.VerifyServerHostname
base.CAFile = a.config.CAFile
base.CAPath = a.config.CAPath
base.CertFile = a.config.CertFile
base.KeyFile = a.config.KeyFile
base.ServerName = a.config.ServerName
base.Domain = a.config.DNSDomain
base.TLSMinVersion = a.config.TLSMinVersion
base.TLSCipherSuites = a.config.TLSCipherSuites
base.TLSPreferServerCipherSuites = a.config.TLSPreferServerCipherSuites
// Setup the user event callback
base.UserEventHandler = func(e serf.UserEvent) {
select {
case a.eventCh <- e:
case <-a.shutdownCh:
}
}
// Setup the loggers
base.LogOutput = a.LogOutput
// This will set up the LAN keyring, as well as the WAN and any segments
// for servers.
if err := a.setupKeyrings(base); err != nil {
return nil, fmt.Errorf("Failed to configure keyring: %v", err)
}
return base, nil
}
// Setup the serf and memberlist config for any defined network segments.
func (a *Agent) segmentConfig() ([]consul.NetworkSegment, error) {
var segments []consul.NetworkSegment
config := a.config
for _, s := range config.Segments {
serfConf := consul.DefaultConfig().SerfLANConfig
serfConf.MemberlistConfig.BindAddr = s.Bind.IP.String()
serfConf.MemberlistConfig.BindPort = s.Bind.Port
serfConf.MemberlistConfig.AdvertiseAddr = s.Advertise.IP.String()
serfConf.MemberlistConfig.AdvertisePort = s.Advertise.Port
if config.ReconnectTimeoutLAN != 0 {
serfConf.ReconnectTimeout = config.ReconnectTimeoutLAN
}
if config.EncryptVerifyIncoming {
serfConf.MemberlistConfig.GossipVerifyIncoming = config.EncryptVerifyIncoming
}
if config.EncryptVerifyOutgoing {
serfConf.MemberlistConfig.GossipVerifyOutgoing = config.EncryptVerifyOutgoing
}
var rpcAddr *net.TCPAddr
if s.RPCListener {
rpcAddr = &net.TCPAddr{
IP: s.Bind.IP,
Port: a.config.ServerPort,
}
}
segments = append(segments, consul.NetworkSegment{
Name: s.Name,
Bind: serfConf.MemberlistConfig.BindAddr,
Advertise: serfConf.MemberlistConfig.AdvertiseAddr,
Port: s.Bind.Port,
RPCAddr: rpcAddr,
SerfConfig: serfConf,
})
}
return segments, nil
}
// makeRandomID will generate a random UUID for a node.
func (a *Agent) makeRandomID() (string, error) {
id, err := uuid.GenerateUUID()
if err != nil {
return "", err
}
a.logger.Printf("[DEBUG] Using random ID %q as node ID", id)
return id, nil
}
// makeNodeID will try to find a host-specific ID, or else will generate a
// random ID. The returned ID will always be formatted as a GUID. We don't tell
// the caller whether this ID is random or stable since the consequences are
// high for us if this changes, so we will persist it either way. This will let
// gopsutil change implementations without affecting in-place upgrades of nodes.
func (a *Agent) makeNodeID() (string, error) {
// If they've disabled host-based IDs then just make a random one.
if a.config.DisableHostNodeID {
return a.makeRandomID()
}
// Try to get a stable ID associated with the host itself.
info, err := host.Info()
if err != nil {
a.logger.Printf("[DEBUG] Couldn't get a unique ID from the host: %v", err)
return a.makeRandomID()
}
// Make sure the host ID parses as a UUID, since we don't have complete
// control over this process.
id := strings.ToLower(info.HostID)
if _, err := uuid.ParseUUID(id); err != nil {
a.logger.Printf("[DEBUG] Unique ID %q from host isn't formatted as a UUID: %v",
id, err)
return a.makeRandomID()
}
// Hash the input to make it well distributed. The reported Host UUID may be
// similar across nodes if they are on a cloud provider or on motherboards
// created from the same batch.
buf := sha512.Sum512([]byte(id))
id = fmt.Sprintf("%08x-%04x-%04x-%04x-%12x",
buf[0:4],
buf[4:6],
buf[6:8],
buf[8:10],
buf[10:16])
a.logger.Printf("[DEBUG] Using unique ID %q from host as node ID", id)
return id, nil
}
// setupNodeID will pull the persisted node ID, if any, or create a random one
// and persist it.
func (a *Agent) setupNodeID(config *config.RuntimeConfig) error {
// If they've configured a node ID manually then just use that, as
// long as it's valid.
if config.NodeID != "" {
config.NodeID = types.NodeID(strings.ToLower(string(config.NodeID)))
if _, err := uuid.ParseUUID(string(config.NodeID)); err != nil {
return err
}
return nil
}
// For dev mode we have no filesystem access so just make one.
if a.config.DevMode {
id, err := a.makeNodeID()
if err != nil {
return err
}
config.NodeID = types.NodeID(id)
return nil
}
// Load saved state, if any. Since a user could edit this, we also
// validate it.
fileID := filepath.Join(config.DataDir, "node-id")
if _, err := os.Stat(fileID); err == nil {
rawID, err := ioutil.ReadFile(fileID)
if err != nil {
return err
}
nodeID := strings.TrimSpace(string(rawID))
nodeID = strings.ToLower(nodeID)
if _, err := uuid.ParseUUID(nodeID); err != nil {
return err
}
config.NodeID = types.NodeID(nodeID)
}
// If we still don't have a valid node ID, make one.
if config.NodeID == "" {
id, err := a.makeNodeID()
if err != nil {
return err
}
if err := lib.EnsurePath(fileID, false); err != nil {
return err
}
if err := ioutil.WriteFile(fileID, []byte(id), 0600); err != nil {
return err
}
config.NodeID = types.NodeID(id)
}
return nil
}
// setupBaseKeyrings configures the LAN and WAN keyrings.
func (a *Agent) setupBaseKeyrings(config *consul.Config) error {
// If the keyring file is disabled then just poke the provided key
// into the in-memory keyring.
if a.config.DisableKeyringFile {
if a.config.EncryptKey == "" {
return nil
}
keys := []string{a.config.EncryptKey}
if err := loadKeyring(config.SerfLANConfig, keys); err != nil {
return err
}
if a.config.ServerMode {
if err := loadKeyring(config.SerfWANConfig, keys); err != nil {
return err
}
}
return nil
}
// Otherwise, we need to deal with the keyring files.
fileLAN := filepath.Join(a.config.DataDir, SerfLANKeyring)
fileWAN := filepath.Join(a.config.DataDir, SerfWANKeyring)
if a.config.EncryptKey == "" {
goto LOAD
}
if _, err := os.Stat(fileLAN); err != nil {
if err := initKeyring(fileLAN, a.config.EncryptKey); err != nil {
return err
}