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consul/agent/config/builder.go

1175 lines
41 KiB

New config parser, HCL support, multiple bind addrs (#3480) * new config parser for agent This patch implements a new config parser for the consul agent which makes the following changes to the previous implementation: * add HCL support * all configuration fragments in tests and for default config are expressed as HCL fragments * HCL fragments can be provided on the command line so that they can eventually replace the command line flags. * HCL/JSON fragments are parsed into a temporary Config structure which can be merged using reflection (all values are pointers). The existing merge logic of overwrite for values and append for slices has been preserved. * A single builder process generates a typed runtime configuration for the agent. The new implementation is more strict and fails in the builder process if no valid runtime configuration can be generated. Therefore, additional validations in other parts of the code should be removed. The builder also pre-computes all required network addresses so that no address/port magic should be required where the configuration is used and should therefore be removed. * Upgrade github.com/hashicorp/hcl to support int64 * improve error messages * fix directory permission test * Fix rtt test * Fix ForceLeave test * Skip performance test for now until we know what to do * Update github.com/hashicorp/memberlist to update log prefix * Make memberlist use the default logger * improve config error handling * do not fail on non-existing data-dir * experiment with non-uniform timeouts to get a handle on stalled leader elections * Run tests for packages separately to eliminate the spurious port conflicts * refactor private address detection and unify approach for ipv4 and ipv6. Fixes #2825 * do not allow unix sockets for DNS * improve bind and advertise addr error handling * go through builder using test coverage * minimal update to the docs * more coverage tests fixed * more tests * fix makefile * cleanup * fix port conflicts with external port server 'porter' * stop test server on error * do not run api test that change global ENV concurrently with the other tests * Run remaining api tests concurrently * no need for retry with the port number service * monkey patch race condition in go-sockaddr until we understand why that fails * monkey patch hcl decoder race condidtion until we understand why that fails * monkey patch spurious errors in strings.EqualFold from here * add test for hcl decoder race condition. Run with go test -parallel 128 * Increase timeout again * cleanup * don't log port allocations by default * use base command arg parsing to format help output properly * handle -dc deprecation case in Build * switch autopilot.max_trailing_logs to int * remove duplicate test case * remove unused methods * remove comments about flag/config value inconsistencies * switch got and want around since the error message was misleading. * Removes a stray debug log. * Removes a stray newline in imports. * Fixes TestACL_Version8. * Runs go fmt. * Adds a default case for unknown address types. * Reoders and reformats some imports. * Adds some comments and fixes typos. * Reorders imports. * add unix socket support for dns later * drop all deprecated flags and arguments * fix wrong field name * remove stray node-id file * drop unnecessary patch section in test * drop duplicate test * add test for LeaveOnTerm and SkipLeaveOnInt in client mode * drop "bla" and add clarifying comment for the test * split up tests to support enterprise/non-enterprise tests * drop raft multiplier and derive values during build phase * sanitize runtime config reflectively and add test * detect invalid config fields * fix tests with invalid config fields * use different values for wan sanitiziation test * drop recursor in favor of recursors * allow dns_config.udp_answer_limit to be zero * make sure tests run on machines with multiple ips * Fix failing tests in a few more places by providing a bind address in the test * Gets rid of skipped TestAgent_CheckPerformanceSettings and adds case for builder. * Add porter to server_test.go to make tests there less flaky * go fmt
7 years ago
package config
import (
"encoding/base64"
"encoding/json"
"fmt"
"io/ioutil"
"net"
"os"
"path/filepath"
"reflect"
"regexp"
"sort"
"strings"
"time"
"github.com/hashicorp/consul/agent/consul"
"github.com/hashicorp/consul/agent/structs"
"github.com/hashicorp/consul/ipaddr"
"github.com/hashicorp/consul/tlsutil"
"github.com/hashicorp/consul/types"
multierror "github.com/hashicorp/go-multierror"
"github.com/hashicorp/go-sockaddr/template"
"golang.org/x/time/rate"
)
// Builder constructs a valid runtime configuration from multiple
// configuration sources.
//
// To build the runtime configuration first call Build() which merges
// the sources in a pre-defined order, converts the data types and
// structures into their final form and performs the syntactic
// validation.
//
// The sources are merged in the following order:
//
// * default configuration
// * config files in alphabetical order
// * command line arguments
//
// The config sources are merged sequentially and later values
// overwrite previously set values. Slice values are merged by
// concatenating the two slices.
//
// Then call Validate() to perform the semantic validation to ensure
// that the configuration is ready to be used.
//
// Splitting the construction into two phases greatly simplifies testing
// since not all pre-conditions have to be satisfied when performing
// syntactical tests.
type Builder struct {
// Flags contains the parsed command line arguments.
Flags Flags
// Head, Sources, and Tail are used to manage the order of the
// config sources, as described in the comments above.
Head []Source
Sources []Source
Tail []Source
// Warnings contains the warnings encountered when
// parsing the configuration.
Warnings []string
// Hostname returns the hostname of the machine. If nil, os.Hostname
// is called.
Hostname func() (string, error)
// GetPrivateIPv4 and GetPublicIPv6 return suitable default addresses
// for cases when the user doesn't supply them.
GetPrivateIPv4 func() ([]*net.IPAddr, error)
GetPublicIPv6 func() ([]*net.IPAddr, error)
// err contains the first error that occurred during
// building the runtime configuration.
err error
}
// NewBuilder returns a new configuration builder based on the given command
// line flags.
func NewBuilder(flags Flags) (*Builder, error) {
newSource := func(name string, v interface{}) Source {
b, err := json.MarshalIndent(v, "", " ")
if err != nil {
panic(err)
}
return Source{Name: name, Format: "json", Data: string(b)}
}
b := &Builder{
Flags: flags,
Head: []Source{DefaultSource()},
}
if b.boolVal(b.Flags.DevMode) {
b.Head = append(b.Head, DevSource())
}
// Since the merge logic is to overwrite all fields with later
// values except slices which are merged by appending later values
// we need to merge all slice values defined in flags before we
// merge the config files since the flag values for slices are
// otherwise appended instead of prepended.
slices, values := b.splitSlicesAndValues(b.Flags.Config)
b.Head = append(b.Head, newSource("flags.slices", slices))
for _, path := range b.Flags.ConfigFiles {
if err := b.ReadPath(path); err != nil {
return nil, err
}
}
b.Tail = append(b.Tail, newSource("flags.values", values))
for i, s := range b.Flags.HCL {
b.Tail = append(b.Tail, Source{
Name: fmt.Sprintf("flags.hcl.%d", i),
Format: "hcl",
Data: s,
})
}
b.Tail = append(b.Tail, NonUserSource(), DefaultConsulSource(), DefaultVersionSource())
if b.boolVal(b.Flags.DevMode) {
b.Tail = append(b.Tail, DevConsulSource())
}
return b, nil
}
// ReadPath reads a single config file or all files in a directory (but
// not its sub-directories) and appends them to the list of config
// sources. If path refers to a file then the format is assumed to be
// JSON unless the file has a '.hcl' suffix. If path refers to a
// directory then the format is determined by the suffix and only files
// with a '.json' or '.hcl' suffix are processed.
func (b *Builder) ReadPath(path string) error {
f, err := os.Open(path)
if err != nil {
return fmt.Errorf("config: Open failed on %s. %s", path, err)
}
defer f.Close()
fi, err := f.Stat()
if err != nil {
return fmt.Errorf("config: Stat failed on %s. %s", path, err)
}
if !fi.IsDir() {
return b.ReadFile(path)
}
fis, err := f.Readdir(-1)
if err != nil {
return fmt.Errorf("config: Readdir failed on %s. %s", path, err)
}
// sort files by name
sort.Sort(byName(fis))
for _, fi := range fis {
// do not recurse into sub dirs
if fi.IsDir() {
continue
}
// skip files without json or hcl extension
if !strings.HasSuffix(fi.Name(), ".json") && !strings.HasSuffix(fi.Name(), ".hcl") {
continue
}
if err := b.ReadFile(filepath.Join(path, fi.Name())); err != nil {
return err
}
}
return nil
}
// ReadFile parses a JSON or HCL config file and appends it to the list of
// config sources.
func (b *Builder) ReadFile(path string) error {
data, err := ioutil.ReadFile(path)
if err != nil {
return fmt.Errorf("config: ReadFile failed on %s: %s", path, err)
}
b.Sources = append(b.Sources, NewSource(path, string(data)))
return nil
}
type byName []os.FileInfo
func (a byName) Len() int { return len(a) }
func (a byName) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a byName) Less(i, j int) bool { return a[i].Name() < a[j].Name() }
func (b *Builder) BuildAndValidate() (RuntimeConfig, error) {
rt, err := b.Build()
if err != nil {
return RuntimeConfig{}, err
}
if err := b.Validate(rt); err != nil {
return RuntimeConfig{}, err
}
return rt, nil
}
// Build constructs the runtime configuration from the config sources
// and the command line flags. The config sources are processed in the
// order they were added with the flags being processed last to give
// precedence over the other sources. If the error is nil then
// warnings can still contain deprecation or format warnings that should
// be presented to the user.
func (b *Builder) Build() (rt RuntimeConfig, err error) {
b.err = nil
b.Warnings = nil
// ----------------------------------------------------------------
// merge config sources as follows
//
// build the list of config sources
var srcs []Source
srcs = append(srcs, b.Head...)
srcs = append(srcs, b.Sources...)
srcs = append(srcs, b.Tail...)
// parse the config sources into a configuration
var c Config
for _, s := range srcs {
if s.Name == "" || s.Data == "" {
continue
}
c2, err := Parse(s.Data, s.Format)
if err != nil {
return RuntimeConfig{}, fmt.Errorf("Error parsing %s: %s", s.Name, err)
}
c = Merge(c, c2)
}
// ----------------------------------------------------------------
// process/merge some complex values
//
var dnsServiceTTL = map[string]time.Duration{}
for k, v := range c.DNS.ServiceTTL {
dnsServiceTTL[k] = b.durationVal(fmt.Sprintf("dns_config.service_ttl[%q]", k), &v)
}
leaveOnTerm := !b.boolVal(c.ServerMode)
if c.LeaveOnTerm != nil {
leaveOnTerm = b.boolVal(c.LeaveOnTerm)
}
skipLeaveOnInt := b.boolVal(c.ServerMode)
if c.SkipLeaveOnInt != nil {
skipLeaveOnInt = b.boolVal(c.SkipLeaveOnInt)
}
// ----------------------------------------------------------------
// checks and services
//
var checks []*structs.CheckDefinition
if c.Check != nil {
checks = append(checks, b.checkVal(c.Check))
}
for _, check := range c.Checks {
checks = append(checks, b.checkVal(&check))
}
var services []*structs.ServiceDefinition
for _, service := range c.Services {
services = append(services, b.serviceVal(&service))
}
if c.Service != nil {
services = append(services, b.serviceVal(c.Service))
}
// ----------------------------------------------------------------
// addresses
//
// determine port values and replace values <= 0 and > 65535 with -1
dnsPort := b.portVal("ports.dns", c.Ports.DNS)
httpPort := b.portVal("ports.http", c.Ports.HTTP)
httpsPort := b.portVal("ports.https", c.Ports.HTTPS)
serverPort := b.portVal("ports.server", c.Ports.Server)
serfPortLAN := b.portVal("ports.serf_lan", c.Ports.SerfLAN)
serfPortWAN := b.portVal("ports.serf_wan", c.Ports.SerfWAN)
// determine the default bind and advertise address
//
// First check whether the user provided an ANY address or whether
// the expanded template results in an ANY address. In that case we
// derive an advertise address from the current network
// configuration since we can listen on an ANY address for incoming
// traffic but cannot advertise it as the address on which the
// server can be reached.
bindAddrs := b.expandAddrs("bind_addr", c.BindAddr)
if len(bindAddrs) == 0 {
return RuntimeConfig{}, fmt.Errorf("bind_addr cannot be empty")
}
if len(bindAddrs) > 1 {
return RuntimeConfig{}, fmt.Errorf("bind_addr cannot contain multiple addresses. Use 'addresses.{dns,http,https}' instead.")
}
if isUnixAddr(bindAddrs[0]) {
return RuntimeConfig{}, fmt.Errorf("bind_addr cannot be a unix socket")
}
if !isIPAddr(bindAddrs[0]) {
return RuntimeConfig{}, fmt.Errorf("bind_addr must be an ip address")
}
bindAddr := bindAddrs[0].(*net.IPAddr)
var addrtyp string
var detect func() ([]*net.IPAddr, error)
switch {
case ipaddr.IsAnyV4(c.BindAddr) || ipaddr.IsAnyV4(bindAddr):
addrtyp = "private IPv4"
detect = b.GetPrivateIPv4
if detect == nil {
detect = ipaddr.GetPrivateIPv4
}
case ipaddr.IsAnyV6(c.BindAddr) || ipaddr.IsAnyV6(bindAddr):
addrtyp = "public IPv6"
detect = b.GetPublicIPv6
if detect == nil {
detect = ipaddr.GetPublicIPv6
}
}
advertiseAddr := bindAddr
if detect != nil {
advertiseAddrs, err := detect()
if err != nil {
return RuntimeConfig{}, fmt.Errorf("Error detecting %s address: %s", addrtyp, err)
}
if len(advertiseAddrs) == 0 {
return RuntimeConfig{}, fmt.Errorf("No %s address found", addrtyp)
}
if len(advertiseAddrs) > 1 {
return RuntimeConfig{}, fmt.Errorf("Multiple %s addresses found. Please configure one", addrtyp)
}
advertiseAddr = advertiseAddrs[0]
}
// derive other bind addresses from the bindAddr
rpcBindAddr := b.makeTCPAddr(bindAddr, nil, serverPort)
serfBindAddrLAN := b.makeTCPAddr(b.expandFirstIP("serf_lan", c.SerfBindAddrLAN), bindAddr, serfPortLAN)
serfBindAddrWAN := b.makeTCPAddr(b.expandFirstIP("serf_wan", c.SerfBindAddrWAN), bindAddr, serfPortWAN)
// derive other advertise addresses from the advertise address
advertiseAddrLAN := b.makeIPAddr(b.expandFirstIP("advertise_addr", c.AdvertiseAddrLAN), advertiseAddr)
advertiseAddrWAN := b.makeIPAddr(b.expandFirstIP("advertise_addr_wan", c.AdvertiseAddrWAN), advertiseAddrLAN)
rpcAdvertiseAddr := b.makeTCPAddr(b.expandFirstIP("advertise_addresses.rpc", c.AdvertiseAddrs.RPC), advertiseAddrLAN, serverPort)
serfAdvertiseAddrLAN := b.makeTCPAddr(b.expandFirstIP("advertise_addresses.serf_lan", c.AdvertiseAddrs.SerfLAN), advertiseAddrLAN, serfPortLAN)
serfAdvertiseAddrWAN := b.makeTCPAddr(b.expandFirstIP("advertise_addresses.serf_wan", c.AdvertiseAddrs.SerfWAN), advertiseAddrWAN, serfPortWAN)
// determine client addresses
clientAddrs := b.expandIPs("client_addr", c.ClientAddr)
dnsAddrs := b.makeAddrs(b.expandAddrs("addresses.dns", c.Addresses.DNS), clientAddrs, dnsPort)
httpAddrs := b.makeAddrs(b.expandAddrs("addresses.http", c.Addresses.HTTP), clientAddrs, httpPort)
httpsAddrs := b.makeAddrs(b.expandAddrs("addresses.https", c.Addresses.HTTPS), clientAddrs, httpsPort)
for _, a := range dnsAddrs {
if x, ok := a.(*net.TCPAddr); ok {
dnsAddrs = append(dnsAddrs, &net.UDPAddr{IP: x.IP, Port: x.Port})
}
}
// Create the default set of tagged addresses.
if c.TaggedAddresses == nil {
c.TaggedAddresses = make(map[string]string)
}
c.TaggedAddresses["lan"] = advertiseAddrLAN.IP.String()
c.TaggedAddresses["wan"] = advertiseAddrWAN.IP.String()
// segments
var segments []structs.NetworkSegment
for _, s := range c.Segments {
name := b.stringVal(s.Name)
port := b.portVal(fmt.Sprintf("segments[%s].port", name), s.Port)
bind := b.makeTCPAddr(
b.expandFirstIP(fmt.Sprintf("segments[%s].bind", name), s.Bind),
bindAddr,
port,
)
advertise := b.makeTCPAddr(
b.expandFirstIP(fmt.Sprintf("segments[%s].advertise", name), s.Advertise),
advertiseAddrLAN,
port,
)
segments = append(segments, structs.NetworkSegment{
Name: name,
Bind: bind,
Advertise: advertise,
RPCListener: b.boolVal(s.RPCListener),
})
}
// Parse the metric filters
var telemetryAllowedPrefixes, telemetryBlockedPrefixes []string
for _, rule := range c.Telemetry.PrefixFilter {
if rule == "" {
b.warn("Cannot have empty filter rule in prefix_filter")
continue
}
switch rule[0] {
case '+':
telemetryAllowedPrefixes = append(telemetryAllowedPrefixes, rule[1:])
case '-':
telemetryBlockedPrefixes = append(telemetryBlockedPrefixes, rule[1:])
default:
b.warn("Filter rule must begin with either '+' or '-': %q", rule)
}
}
// raft performance scaling
performanceRaftMultiplier := b.intVal(c.Performance.RaftMultiplier)
if performanceRaftMultiplier < 1 || uint(performanceRaftMultiplier) > consul.MaxRaftMultiplier {
return RuntimeConfig{}, fmt.Errorf("performance.raft_multiplier cannot be %d. Must be between 1 and %d", performanceRaftMultiplier, consul.MaxRaftMultiplier)
}
consulRaftElectionTimeout := b.durationVal("consul.raft.election_timeout", c.Consul.Raft.ElectionTimeout) * time.Duration(performanceRaftMultiplier)
consulRaftHeartbeatTimeout := b.durationVal("consul.raft.heartbeat_timeout", c.Consul.Raft.HeartbeatTimeout) * time.Duration(performanceRaftMultiplier)
consulRaftLeaderLeaseTimeout := b.durationVal("consul.raft.leader_lease_timeout", c.Consul.Raft.LeaderLeaseTimeout) * time.Duration(performanceRaftMultiplier)
// ----------------------------------------------------------------
// build runtime config
//
rt = RuntimeConfig{
// non-user configurable values
ACLDisabledTTL: b.durationVal("acl_disabled_ttl", c.ACLDisabledTTL),
AEInterval: b.durationVal("ae_interval", c.AEInterval),
CheckDeregisterIntervalMin: b.durationVal("check_deregister_interval_min", c.CheckDeregisterIntervalMin),
CheckReapInterval: b.durationVal("check_reap_interval", c.CheckReapInterval),
Revision: b.stringVal(c.Revision),
SegmentLimit: b.intVal(c.SegmentLimit),
SegmentNameLimit: b.intVal(c.SegmentNameLimit),
SyncCoordinateIntervalMin: b.durationVal("sync_coordinate_interval_min", c.SyncCoordinateIntervalMin),
SyncCoordinateRateTarget: b.float64Val(c.SyncCoordinateRateTarget),
Version: b.stringVal(c.Version),
VersionPrerelease: b.stringVal(c.VersionPrerelease),
// consul configuration
ConsulCoordinateUpdateBatchSize: b.intVal(c.Consul.Coordinate.UpdateBatchSize),
ConsulCoordinateUpdateMaxBatches: b.intVal(c.Consul.Coordinate.UpdateMaxBatches),
ConsulCoordinateUpdatePeriod: b.durationVal("consul.coordinate.update_period", c.Consul.Coordinate.UpdatePeriod),
ConsulRaftElectionTimeout: consulRaftElectionTimeout,
ConsulRaftHeartbeatTimeout: consulRaftHeartbeatTimeout,
ConsulRaftLeaderLeaseTimeout: consulRaftLeaderLeaseTimeout,
ConsulSerfLANGossipInterval: b.durationVal("consul.serf_lan.gossip_interval", c.Consul.SerfLAN.Memberlist.GossipInterval),
ConsulSerfLANProbeInterval: b.durationVal("consul.serf_lan.probe_interval", c.Consul.SerfLAN.Memberlist.ProbeInterval),
ConsulSerfLANProbeTimeout: b.durationVal("consul.serf_lan.probe_timeout", c.Consul.SerfLAN.Memberlist.ProbeTimeout),
ConsulSerfLANSuspicionMult: b.intVal(c.Consul.SerfLAN.Memberlist.SuspicionMult),
ConsulSerfWANGossipInterval: b.durationVal("consul.serf_wan.gossip_interval", c.Consul.SerfWAN.Memberlist.GossipInterval),
ConsulSerfWANProbeInterval: b.durationVal("consul.serf_wan.probe_interval", c.Consul.SerfWAN.Memberlist.ProbeInterval),
ConsulSerfWANProbeTimeout: b.durationVal("consul.serf_wan.probe_timeout", c.Consul.SerfWAN.Memberlist.ProbeTimeout),
ConsulSerfWANSuspicionMult: b.intVal(c.Consul.SerfWAN.Memberlist.SuspicionMult),
ConsulServerHealthInterval: b.durationVal("consul.server.health_interval", c.Consul.Server.HealthInterval),
// ACL
ACLAgentMasterToken: b.stringVal(c.ACLAgentMasterToken),
ACLAgentToken: b.stringVal(c.ACLAgentToken),
ACLDatacenter: strings.ToLower(b.stringVal(c.ACLDatacenter)),
ACLDefaultPolicy: b.stringVal(c.ACLDefaultPolicy),
ACLDownPolicy: b.stringVal(c.ACLDownPolicy),
ACLEnforceVersion8: b.boolVal(c.ACLEnforceVersion8),
ACLMasterToken: b.stringVal(c.ACLMasterToken),
ACLReplicationToken: b.stringVal(c.ACLReplicationToken),
ACLTTL: b.durationVal("acl_ttl", c.ACLTTL),
ACLToken: b.stringVal(c.ACLToken),
EnableACLReplication: b.boolVal(c.EnableACLReplication),
// Autopilot
AutopilotCleanupDeadServers: b.boolVal(c.Autopilot.CleanupDeadServers),
AutopilotDisableUpgradeMigration: b.boolVal(c.Autopilot.DisableUpgradeMigration),
AutopilotLastContactThreshold: b.durationVal("autopilot.last_contact_threshold", c.Autopilot.LastContactThreshold),
AutopilotMaxTrailingLogs: b.intVal(c.Autopilot.MaxTrailingLogs),
AutopilotRedundancyZoneTag: b.stringVal(c.Autopilot.RedundancyZoneTag),
AutopilotServerStabilizationTime: b.durationVal("autopilot.server_stabilization_time", c.Autopilot.ServerStabilizationTime),
AutopilotUpgradeVersionTag: b.stringVal(c.Autopilot.UpgradeVersionTag),
// DNS
DNSAddrs: dnsAddrs,
DNSAllowStale: b.boolVal(c.DNS.AllowStale),
DNSDisableCompression: b.boolVal(c.DNS.DisableCompression),
DNSDomain: b.stringVal(c.DNSDomain),
DNSEnableTruncate: b.boolVal(c.DNS.EnableTruncate),
DNSMaxStale: b.durationVal("dns_config.max_stale", c.DNS.MaxStale),
DNSNodeTTL: b.durationVal("dns_config.node_ttl", c.DNS.NodeTTL),
DNSOnlyPassing: b.boolVal(c.DNS.OnlyPassing),
DNSPort: dnsPort,
DNSRecursorTimeout: b.durationVal("recursor_timeout", c.DNS.RecursorTimeout),
DNSRecursors: c.DNSRecursors,
DNSServiceTTL: dnsServiceTTL,
DNSUDPAnswerLimit: b.intVal(c.DNS.UDPAnswerLimit),
// HTTP
HTTPPort: httpPort,
HTTPSPort: httpsPort,
HTTPAddrs: httpAddrs,
HTTPSAddrs: httpsAddrs,
HTTPBlockEndpoints: c.HTTPConfig.BlockEndpoints,
HTTPResponseHeaders: c.HTTPConfig.ResponseHeaders,
// Telemetry
TelemetryCirconusAPIApp: b.stringVal(c.Telemetry.CirconusAPIApp),
TelemetryCirconusAPIToken: b.stringVal(c.Telemetry.CirconusAPIToken),
TelemetryCirconusAPIURL: b.stringVal(c.Telemetry.CirconusAPIURL),
TelemetryCirconusBrokerID: b.stringVal(c.Telemetry.CirconusBrokerID),
TelemetryCirconusBrokerSelectTag: b.stringVal(c.Telemetry.CirconusBrokerSelectTag),
TelemetryCirconusCheckDisplayName: b.stringVal(c.Telemetry.CirconusCheckDisplayName),
TelemetryCirconusCheckForceMetricActivation: b.stringVal(c.Telemetry.CirconusCheckForceMetricActivation),
TelemetryCirconusCheckID: b.stringVal(c.Telemetry.CirconusCheckID),
TelemetryCirconusCheckInstanceID: b.stringVal(c.Telemetry.CirconusCheckInstanceID),
TelemetryCirconusCheckSearchTag: b.stringVal(c.Telemetry.CirconusCheckSearchTag),
TelemetryCirconusCheckTags: b.stringVal(c.Telemetry.CirconusCheckTags),
TelemetryCirconusSubmissionInterval: b.stringVal(c.Telemetry.CirconusSubmissionInterval),
TelemetryCirconusSubmissionURL: b.stringVal(c.Telemetry.CirconusSubmissionURL),
TelemetryDisableHostname: b.boolVal(c.Telemetry.DisableHostname),
TelemetryDogstatsdAddr: b.stringVal(c.Telemetry.DogstatsdAddr),
TelemetryDogstatsdTags: c.Telemetry.DogstatsdTags,
TelemetryFilterDefault: b.boolVal(c.Telemetry.FilterDefault),
TelemetryAllowedPrefixes: telemetryAllowedPrefixes,
TelemetryBlockedPrefixes: telemetryBlockedPrefixes,
TelemetryStatsdAddr: b.stringVal(c.Telemetry.StatsdAddr),
TelemetryStatsiteAddr: b.stringVal(c.Telemetry.StatsiteAddr),
TelemetryStatsitePrefix: b.stringVal(c.Telemetry.StatsitePrefix),
// Agent
AdvertiseAddrLAN: advertiseAddrLAN,
AdvertiseAddrWAN: advertiseAddrWAN,
BindAddr: bindAddr,
Bootstrap: b.boolVal(c.Bootstrap),
BootstrapExpect: b.intVal(c.BootstrapExpect),
CAFile: b.stringVal(c.CAFile),
CAPath: b.stringVal(c.CAPath),
CertFile: b.stringVal(c.CertFile),
CheckUpdateInterval: b.durationVal("check_update_interval", c.CheckUpdateInterval),
Checks: checks,
ClientAddrs: clientAddrs,
DataDir: b.stringVal(c.DataDir),
Datacenter: strings.ToLower(b.stringVal(c.Datacenter)),
DevMode: b.boolVal(b.Flags.DevMode),
DisableAnonymousSignature: b.boolVal(c.DisableAnonymousSignature),
DisableCoordinates: b.boolVal(c.DisableCoordinates),
DisableHostNodeID: b.boolVal(c.DisableHostNodeID),
DisableKeyringFile: b.boolVal(c.DisableKeyringFile),
DisableRemoteExec: b.boolVal(c.DisableRemoteExec),
DisableUpdateCheck: b.boolVal(c.DisableUpdateCheck),
EnableDebug: b.boolVal(c.EnableDebug),
EnableScriptChecks: b.boolVal(c.EnableScriptChecks),
EnableSyslog: b.boolVal(c.EnableSyslog),
EnableUI: b.boolVal(c.EnableUI),
EncryptKey: b.stringVal(c.EncryptKey),
EncryptVerifyIncoming: b.boolVal(c.EncryptVerifyIncoming),
EncryptVerifyOutgoing: b.boolVal(c.EncryptVerifyOutgoing),
KeyFile: b.stringVal(c.KeyFile),
LeaveOnTerm: leaveOnTerm,
LogLevel: b.stringVal(c.LogLevel),
NodeID: types.NodeID(b.stringVal(c.NodeID)),
NodeMeta: c.NodeMeta,
NodeName: b.nodeName(c.NodeName),
NonVotingServer: b.boolVal(c.NonVotingServer),
PidFile: b.stringVal(c.PidFile),
RPCAdvertiseAddr: rpcAdvertiseAddr,
RPCBindAddr: rpcBindAddr,
RPCMaxBurst: b.intVal(c.Limits.RPCMaxBurst),
RPCProtocol: b.intVal(c.RPCProtocol),
RPCRateLimit: rate.Limit(b.float64Val(c.Limits.RPCRate)),
RaftProtocol: b.intVal(c.RaftProtocol),
ReconnectTimeoutLAN: b.durationVal("reconnect_timeout", c.ReconnectTimeoutLAN),
ReconnectTimeoutWAN: b.durationVal("reconnect_timeout_wan", c.ReconnectTimeoutWAN),
RejoinAfterLeave: b.boolVal(c.RejoinAfterLeave),
RetryJoinIntervalLAN: b.durationVal("retry_interval", c.RetryJoinIntervalLAN),
RetryJoinIntervalWAN: b.durationVal("retry_interval_wan", c.RetryJoinIntervalWAN),
RetryJoinLAN: c.RetryJoinLAN,
RetryJoinMaxAttemptsLAN: b.intVal(c.RetryJoinMaxAttemptsLAN),
RetryJoinMaxAttemptsWAN: b.intVal(c.RetryJoinMaxAttemptsWAN),
RetryJoinWAN: c.RetryJoinWAN,
SegmentName: b.stringVal(c.SegmentName),
Segments: segments,
SerfAdvertiseAddrLAN: serfAdvertiseAddrLAN,
SerfAdvertiseAddrWAN: serfAdvertiseAddrWAN,
SerfBindAddrLAN: serfBindAddrLAN,
SerfBindAddrWAN: serfBindAddrWAN,
SerfPortLAN: serfPortLAN,
SerfPortWAN: serfPortWAN,
ServerMode: b.boolVal(c.ServerMode),
ServerName: b.stringVal(c.ServerName),
ServerPort: serverPort,
Services: services,
SessionTTLMin: b.durationVal("session_ttl_min", c.SessionTTLMin),
SkipLeaveOnInt: skipLeaveOnInt,
StartJoinAddrsLAN: c.StartJoinAddrsLAN,
StartJoinAddrsWAN: c.StartJoinAddrsWAN,
SyslogFacility: b.stringVal(c.SyslogFacility),
TLSCipherSuites: b.tlsCipherSuites("tls_cipher_suites", c.TLSCipherSuites),
TLSMinVersion: b.stringVal(c.TLSMinVersion),
TLSPreferServerCipherSuites: b.boolVal(c.TLSPreferServerCipherSuites),
TaggedAddresses: c.TaggedAddresses,
TranslateWANAddrs: b.boolVal(c.TranslateWANAddrs),
UIDir: b.stringVal(c.UIDir),
UnixSocketGroup: b.stringVal(c.UnixSocket.Group),
UnixSocketMode: b.stringVal(c.UnixSocket.Mode),
UnixSocketUser: b.stringVal(c.UnixSocket.User),
VerifyIncoming: b.boolVal(c.VerifyIncoming),
VerifyIncomingHTTPS: b.boolVal(c.VerifyIncomingHTTPS),
VerifyIncomingRPC: b.boolVal(c.VerifyIncomingRPC),
VerifyOutgoing: b.boolVal(c.VerifyOutgoing),
VerifyServerHostname: b.boolVal(c.VerifyServerHostname),
Watches: c.Watches,
}
if rt.BootstrapExpect == 1 {
rt.Bootstrap = true
rt.BootstrapExpect = 0
b.warn(`BootstrapExpect is set to 1; this is the same as Bootstrap mode.`)
}
if rt.ACLReplicationToken != "" {
rt.EnableACLReplication = true
}
return rt, nil
}
// Validate performs semantical validation of the runtime configuration.
func (b *Builder) Validate(rt RuntimeConfig) error {
// reDatacenter defines a regexp for a valid datacenter name
var reDatacenter = regexp.MustCompile("^[a-z0-9_-]+$")
// ----------------------------------------------------------------
// check required params we cannot recover from first
//
if rt.Datacenter == "" {
return fmt.Errorf("datacenter cannot be empty")
}
if !reDatacenter.MatchString(rt.Datacenter) {
return fmt.Errorf("datacenter cannot be %q. Please use only [a-z0-9-_].", rt.Datacenter)
}
if rt.DataDir == "" && !rt.DevMode {
return fmt.Errorf("data_dir cannot be empty")
}
if !rt.DevMode {
fi, err := os.Stat(rt.DataDir)
switch {
case err != nil && !os.IsNotExist(err):
return fmt.Errorf("Error getting info on data_dir: %s", err)
case err == nil && !fi.IsDir():
return fmt.Errorf("data_dir %q is not a directory", rt.DataDir)
}
}
if rt.NodeName == "" {
return fmt.Errorf("node_name cannot be empty")
}
if ipaddr.IsAny(rt.AdvertiseAddrLAN.IP) {
return fmt.Errorf("Advertise address cannot be 0.0.0.0, :: or [::]")
}
if ipaddr.IsAny(rt.AdvertiseAddrWAN.IP) {
return fmt.Errorf("Advertise WAN address cannot be 0.0.0.0, :: or [::]")
}
if ipaddr.IsAny(rt.RPCAdvertiseAddr) {
return fmt.Errorf("advertise_addrs.rpc cannot be 0.0.0.0, :: or [::]")
}
if ipaddr.IsAny(rt.SerfAdvertiseAddrLAN) {
return fmt.Errorf("advertise_addrs.serf_lan cannot be 0.0.0.0, :: or [::]")
}
if ipaddr.IsAny(rt.SerfAdvertiseAddrWAN) {
return fmt.Errorf("advertise_addrs.serf_wan cannot be 0.0.0.0, :: or [::]")
}
if err := b.validateSegments(rt); err != nil {
return err
}
for _, a := range rt.DNSAddrs {
if _, ok := a.(*net.UnixAddr); ok {
return fmt.Errorf("DNS address cannot be a unix socket")
}
}
if rt.Bootstrap && !rt.ServerMode {
return fmt.Errorf("'bootstrap = true' requires 'server = true'")
}
if rt.BootstrapExpect < 0 {
return fmt.Errorf("bootstrap_expect cannot be %d. Must be greater than or equal to zero", rt.BootstrapExpect)
}
if rt.BootstrapExpect > 0 && !rt.ServerMode {
return fmt.Errorf("'bootstrap_expect > 0' requires 'server = true'")
}
if rt.BootstrapExpect > 0 && rt.DevMode {
return fmt.Errorf("'bootstrap_expect > 0' not allowed in dev mode")
}
if rt.BootstrapExpect > 0 && rt.Bootstrap {
return fmt.Errorf("'bootstrap_expect > 0' and 'bootstrap = true' are mutually exclusive")
}
if rt.AEInterval <= 0 {
return fmt.Errorf("ae_interval cannot be %s. Must be positive", rt.AEInterval)
}
if rt.AutopilotMaxTrailingLogs < 0 {
return fmt.Errorf("autopilot.max_trailing_logs cannot be %d. Must be greater than or equal to zero", rt.AutopilotMaxTrailingLogs)
}
if rt.ACLDatacenter != "" && !reDatacenter.MatchString(rt.ACLDatacenter) {
return fmt.Errorf("acl_datacenter cannot be %q. Please use only [a-z0-9-_].", rt.ACLDatacenter)
}
if rt.EnableUI && rt.UIDir != "" {
return fmt.Errorf(
"Both the ui and ui-dir flags were specified, please provide only one.\n" +
"If trying to use your own web UI resources, use the ui-dir flag.\n" +
"If using Consul version 0.7.0 or later, the web UI is included in the binary so use ui to enable it")
}
if rt.DNSUDPAnswerLimit < 0 {
return fmt.Errorf("dns_config.udp_answer_limit cannot be %d. Must be greater than or equal to zero", rt.DNSUDPAnswerLimit)
}
if err := structs.ValidateMetadata(rt.NodeMeta, false); err != nil {
return fmt.Errorf("node_meta invalid: %v", err)
}
if rt.EncryptKey != "" {
if _, err := decodeBytes(rt.EncryptKey); err != nil {
return fmt.Errorf("encrypt has invalid key: %s", err)
}
keyfileLAN := filepath.Join(rt.DataDir, SerfLANKeyring)
if _, err := os.Stat(keyfileLAN); err == nil {
b.warn("WARNING: LAN keyring exists but -encrypt given, using keyring")
}
if rt.ServerMode {
keyfileWAN := filepath.Join(rt.DataDir, SerfWANKeyring)
if _, err := os.Stat(keyfileWAN); err == nil {
b.warn("WARNING: WAN keyring exists but -encrypt given, using keyring")
}
}
}
// Check the data dir for signs of an un-migrated Consul 0.5.x or older
// server. Consul refuses to start if this is present to protect a server
// with existing data from starting on a fresh data set.
if rt.ServerMode {
mdbPath := filepath.Join(rt.DataDir, "mdb")
if _, err := os.Stat(mdbPath); !os.IsNotExist(err) {
if os.IsPermission(err) {
return fmt.Errorf(
"CRITICAL: Permission denied for data folder at %q!\n"+
"Consul will refuse to boot without access to this directory.\n"+
"Please correct permissions and try starting again.", mdbPath)
}
return fmt.Errorf("CRITICAL: Deprecated data folder found at %q!\n"+
"Consul will refuse to boot with this directory present.\n"+
"See https://www.consul.io/docs/upgrade-specific.html for more information.", mdbPath)
}
}
inuse := map[string]string{}
if err := addrsUnique(inuse, "DNS", rt.DNSAddrs); err != nil {
// cannot happen since this is the first address
// we leave this for consistency
return err
}
if err := addrsUnique(inuse, "HTTP", rt.HTTPAddrs); err != nil {
return err
}
if err := addrsUnique(inuse, "HTTPS", rt.HTTPSAddrs); err != nil {
return err
}
if err := addrUnique(inuse, "RPC Advertise", rt.RPCAdvertiseAddr); err != nil {
return err
}
if err := addrUnique(inuse, "Serf Advertise LAN", rt.SerfAdvertiseAddrLAN); err != nil {
return err
}
if err := addrUnique(inuse, "Serf Advertise WAN", rt.SerfAdvertiseAddrWAN); err != nil {
return err
}
if b.err != nil {
return b.err
}
// ----------------------------------------------------------------
// warnings
//
if rt.ServerMode && !rt.DevMode && !rt.Bootstrap && rt.BootstrapExpect == 2 {
b.warn(`bootstrap_expect = 2: A cluster with 2 servers will provide no failure tolerance. See https://www.consul.io/docs/internals/consensus.html#deployment-table`)
}
if rt.ServerMode && !rt.Bootstrap && rt.BootstrapExpect > 2 && rt.BootstrapExpect%2 == 0 {
b.warn(`bootstrap_expect is even number: A cluster with an even number of servers does not achieve optimum fault tolerance. See https://www.consul.io/docs/internals/consensus.html#deployment-table`)
}
if rt.ServerMode && rt.Bootstrap && rt.BootstrapExpect == 0 {
b.warn(`bootstrap = true: do not enable unless necessary`)
}
if rt.ServerMode && !rt.DevMode && !rt.Bootstrap && rt.BootstrapExpect > 1 {
b.warn("bootstrap_expect > 0: expecting %d servers", rt.BootstrapExpect)
}
return nil
}
// addrUnique checks if the given address is already in use for another
// protocol.
func addrUnique(inuse map[string]string, name string, addr net.Addr) error {
key := addr.Network() + ":" + addr.String()
if other, ok := inuse[key]; ok {
return fmt.Errorf("%s address %s already configured for %s", name, addr.String(), other)
}
inuse[key] = name
return nil
}
// addrsUnique checks if any of the give addresses is already in use for
// another protocol.
func addrsUnique(inuse map[string]string, name string, addrs []net.Addr) error {
for _, a := range addrs {
if err := addrUnique(inuse, name, a); err != nil {
return err
}
}
return nil
}
// splitSlicesAndValues moves all slice values defined in c to 'slices'
// and all other values to 'values'.
func (b *Builder) splitSlicesAndValues(c Config) (slices, values Config) {
v, t := reflect.ValueOf(c), reflect.TypeOf(c)
rs, rv := reflect.New(t), reflect.New(t)
for i := 0; i < t.NumField(); i++ {
f := t.Field(i)
if f.Type.Kind() == reflect.Slice {
rs.Elem().Field(i).Set(v.Field(i))
} else {
rv.Elem().Field(i).Set(v.Field(i))
}
}
return rs.Elem().Interface().(Config), rv.Elem().Interface().(Config)
}
func (b *Builder) warn(msg string, args ...interface{}) {
b.Warnings = append(b.Warnings, fmt.Sprintf(msg, args...))
}
func (b *Builder) checkVal(v *CheckDefinition) *structs.CheckDefinition {
if v == nil {
return nil
}
id := types.CheckID(b.stringVal(v.ID))
if v.CheckID != nil {
id = types.CheckID(b.stringVal(v.CheckID))
}
return &structs.CheckDefinition{
ID: id,
Name: b.stringVal(v.Name),
Notes: b.stringVal(v.Notes),
ServiceID: b.stringVal(v.ServiceID),
Token: b.stringVal(v.Token),
Status: b.stringVal(v.Status),
Script: b.stringVal(v.Script),
HTTP: b.stringVal(v.HTTP),
Header: v.Header,
Method: b.stringVal(v.Method),
TCP: b.stringVal(v.TCP),
Interval: b.durationVal(fmt.Sprintf("check[%s].interval", id), v.Interval),
DockerContainerID: b.stringVal(v.DockerContainerID),
Shell: b.stringVal(v.Shell),
TLSSkipVerify: b.boolVal(v.TLSSkipVerify),
Timeout: b.durationVal(fmt.Sprintf("check[%s].timeout", id), v.Timeout),
TTL: b.durationVal(fmt.Sprintf("check[%s].ttl", id), v.TTL),
DeregisterCriticalServiceAfter: b.durationVal(fmt.Sprintf("check[%s].deregister_critical_service_after", id), v.DeregisterCriticalServiceAfter),
}
}
func (b *Builder) serviceVal(v *ServiceDefinition) *structs.ServiceDefinition {
if v == nil {
return nil
}
var checks structs.CheckTypes
for _, check := range v.Checks {
checks = append(checks, b.checkVal(&check).CheckType())
}
if v.Check != nil {
checks = append(checks, b.checkVal(v.Check).CheckType())
}
return &structs.ServiceDefinition{
ID: b.stringVal(v.ID),
Name: b.stringVal(v.Name),
Tags: v.Tags,
Address: b.stringVal(v.Address),
Port: b.intVal(v.Port),
Token: b.stringVal(v.Token),
EnableTagOverride: b.boolVal(v.EnableTagOverride),
Checks: checks,
}
}
func (b *Builder) boolVal(v *bool) bool {
if v == nil {
return false
}
return *v
}
func (b *Builder) durationVal(name string, v *string) (d time.Duration) {
if v == nil {
return 0
}
d, err := time.ParseDuration(*v)
if err != nil {
b.err = multierror.Append(fmt.Errorf("%s: invalid duration: %q: %s", name, *v, err))
}
return d
}
func (b *Builder) intVal(v *int) int {
if v == nil {
return 0
}
return *v
}
func (b *Builder) portVal(name string, v *int) int {
if v == nil || *v <= 0 {
return -1
}
if *v > 65535 {
b.err = multierror.Append(b.err, fmt.Errorf("%s: invalid port: %d", name, *v))
}
return *v
}
func (b *Builder) stringVal(v *string) string {
if v == nil {
return ""
}
return *v
}
func (b *Builder) float64Val(v *float64) float64 {
if v == nil {
return 0
}
return *v
}
func (b *Builder) tlsCipherSuites(name string, v *string) []uint16 {
if v == nil {
return nil
}
var a []uint16
a, err := tlsutil.ParseCiphers(*v)
if err != nil {
b.err = multierror.Append(b.err, fmt.Errorf("%s: invalid tls cipher suites: %s", name, err))
}
return a
}
func (b *Builder) nodeName(v *string) string {
nodeName := b.stringVal(v)
if nodeName == "" {
fn := b.Hostname
if fn == nil {
fn = os.Hostname
}
name, err := fn()
if err != nil {
b.err = multierror.Append(b.err, fmt.Errorf("node_name: %s", err))
return ""
}
nodeName = name
}
return strings.TrimSpace(nodeName)
}
// expandAddrs expands the go-sockaddr template in s and returns the
// result as a list of *net.IPAddr and *net.UnixAddr.
func (b *Builder) expandAddrs(name string, s *string) []net.Addr {
if s == nil || *s == "" {
return nil
}
x, err := template.Parse(*s)
if err != nil {
b.err = multierror.Append(b.err, fmt.Errorf("%s: error parsing %q: %s", name, s, err))
return nil
}
var addrs []net.Addr
for _, a := range strings.Fields(x) {
switch {
case strings.HasPrefix(a, "unix://"):
addrs = append(addrs, &net.UnixAddr{Name: a[len("unix://"):], Net: "unix"})
default:
// net.ParseIP does not like '[::]'
ip := net.ParseIP(a)
if a == "[::]" {
ip = net.ParseIP("::")
}
if ip == nil {
b.err = multierror.Append(b.err, fmt.Errorf("%s: invalid ip address: %s", name, a))
return nil
}
addrs = append(addrs, &net.IPAddr{IP: ip})
}
}
return addrs
}
// expandIPs expands the go-sockaddr template in s and returns a list of
// *net.IPAddr. If one of the expanded addresses is a unix socket
// address an error is set and nil is returned.
func (b *Builder) expandIPs(name string, s *string) []*net.IPAddr {
if s == nil || *s == "" {
return nil
}
addrs := b.expandAddrs(name, s)
var x []*net.IPAddr
for _, addr := range addrs {
switch a := addr.(type) {
case *net.IPAddr:
x = append(x, a)
case *net.UnixAddr:
b.err = multierror.Append(b.err, fmt.Errorf("%s cannot be a unix socket", name))
return nil
default:
b.err = multierror.Append(b.err, fmt.Errorf("%s has invalid address type %T", name, a))
return nil
}
}
return x
}
// expandFirstAddr expands the go-sockaddr template in s and returns the
// first address which is either a *net.IPAddr or a *net.UnixAddr. If
// the template expands to multiple addresses an error is set and nil
// is returned.
func (b *Builder) expandFirstAddr(name string, s *string) net.Addr {
if s == nil || *s == "" {
return nil
}
addrs := b.expandAddrs(name, s)
if len(addrs) == 0 {
return nil
}
if len(addrs) > 1 {
var x []string
for _, a := range addrs {
x = append(x, a.String())
}
b.err = multierror.Append(b.err, fmt.Errorf("%s: multiple addresses found: %s", name, strings.Join(x, " ")))
return nil
}
return addrs[0]
}
// expandFirstIP exapnds the go-sockaddr template in s and returns the
// first address if it is not a unix socket address. If the template
// expands to multiple addresses an error is set and nil is returned.
func (b *Builder) expandFirstIP(name string, s *string) *net.IPAddr {
if s == nil || *s == "" {
return nil
}
addr := b.expandFirstAddr(name, s)
if addr == nil {
return nil
}
switch a := addr.(type) {
case *net.IPAddr:
return a
case *net.UnixAddr:
b.err = multierror.Append(b.err, fmt.Errorf("%s cannot be a unix socket", name))
return nil
default:
b.err = multierror.Append(b.err, fmt.Errorf("%s has invalid address type %T", name, a))
return nil
}
}
func (b *Builder) makeIPAddr(pri *net.IPAddr, sec *net.IPAddr) *net.IPAddr {
if pri != nil {
return pri
}
return sec
}
func (b *Builder) makeTCPAddr(pri *net.IPAddr, sec net.Addr, port int) *net.TCPAddr {
if pri == nil && reflect.ValueOf(sec).IsNil() || port <= 0 {
return nil
}
addr := pri
if addr == nil {
switch a := sec.(type) {
case *net.IPAddr:
addr = a
case *net.TCPAddr:
addr = &net.IPAddr{IP: a.IP}
default:
panic(fmt.Sprintf("makeTCPAddr requires a net.IPAddr or a net.TCPAddr. Got %T", a))
}
}
return &net.TCPAddr{IP: addr.IP, Port: port}
}
// makeAddr creates an *net.TCPAddr or a *net.UnixAddr from either the
// primary or secondary address and the given port. If the port is <= 0
// then the address is considered to be disabled and nil is returned.
func (b *Builder) makeAddr(pri, sec net.Addr, port int) net.Addr {
if reflect.ValueOf(pri).IsNil() && reflect.ValueOf(sec).IsNil() || port <= 0 {
return nil
}
addr := pri
if addr == nil {
addr = sec
}
switch a := addr.(type) {
case *net.IPAddr:
return &net.TCPAddr{IP: a.IP, Port: port}
case *net.UnixAddr:
return a
default:
panic(fmt.Sprintf("invalid address type %T", a))
}
}
// makeAddrs creates a list of *net.TCPAddr or *net.UnixAddr entries
// from either the primary or secondary addresses and the given port.
// If the port is <= 0 then the address is considered to be disabled
// and nil is returned.
func (b *Builder) makeAddrs(pri []net.Addr, sec []*net.IPAddr, port int) []net.Addr {
if len(pri) == 0 && len(sec) == 0 || port <= 0 {
return nil
}
addrs := pri
if len(addrs) == 0 {
addrs = []net.Addr{}
for _, a := range sec {
addrs = append(addrs, a)
}
}
var x []net.Addr
for _, a := range addrs {
x = append(x, b.makeAddr(a, nil, port))
}
return x
}
// isUnixAddr returns true when the given address is a unix socket address type.
func (b *Builder) isUnixAddr(a net.Addr) bool {
_, ok := a.(*net.UnixAddr)
return a != nil && ok
}
// decodeBytes returns the encryption key decoded.
func decodeBytes(key string) ([]byte, error) {
return base64.StdEncoding.DecodeString(key)
}
func isIPAddr(a net.Addr) bool {
_, ok := a.(*net.IPAddr)
return ok
}
func isUnixAddr(a net.Addr) bool {
_, ok := a.(*net.UnixAddr)
return ok
}