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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 {
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if ! strings . HasSuffix ( path , ".json" ) && ! strings . HasSuffix ( path , ".hcl" ) {
return fmt . Errorf ( ` Missing or invalid file extension for %q. Please use ".json" or ".hcl". ` , path )
}
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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 )
}
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// if we have a single 'check' or 'service' we need to add them to the
// list of checks and services first since we cannot merge them
// generically and later values would clobber earlier ones.
if c2 . Check != nil {
c2 . Checks = append ( c2 . Checks , * c2 . Check )
c2 . Check = nil
}
if c2 . Service != nil {
c2 . Services = append ( c2 . Services , * c2 . Service )
c2 . Service = nil
}
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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" )
}
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if ipaddr . IsAny ( b . stringVal ( c . AdvertiseAddrLAN ) ) {
return RuntimeConfig { } , fmt . Errorf ( "Advertise address cannot be 0.0.0.0, :: or [::]" )
}
if ipaddr . IsAny ( b . stringVal ( c . AdvertiseAddrWAN ) ) {
return RuntimeConfig { } , fmt . Errorf ( "Advertise WAN address cannot be 0.0.0.0, :: or [::]" )
}
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bindAddr := bindAddrs [ 0 ] . ( * net . IPAddr )
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advertiseAddr := b . makeIPAddr ( b . expandFirstIP ( "advertise_addr" , c . AdvertiseAddrLAN ) , bindAddr )
if ipaddr . IsAny ( advertiseAddr ) {
var addrtyp string
var detect func ( ) ( [ ] * net . IPAddr , error )
switch {
case ipaddr . IsAnyV4 ( advertiseAddr ) :
addrtyp = "private IPv4"
detect = b . GetPrivateIPv4
if detect == nil {
detect = ipaddr . GetPrivateIPv4
}
case ipaddr . IsAnyV6 ( advertiseAddr ) :
addrtyp = "public IPv6"
detect = b . GetPublicIPv6
if detect == nil {
detect = ipaddr . GetPublicIPv6
}
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}
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 )
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rpcAdvertiseAddr := & net . TCPAddr { IP : advertiseAddrLAN . IP , Port : serverPort }
serfAdvertiseAddrLAN := & net . TCPAddr { IP : advertiseAddrLAN . IP , Port : serfPortLAN }
serfAdvertiseAddrWAN := & net . TCPAddr { IP : advertiseAddrWAN . IP , Port : serfPortWAN }
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// 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 )
}
}
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// Add a filter rule if needed for enabling the deprecated metric names
enableDeprecatedNames := b . boolVal ( c . Telemetry . EnableDeprecatedNames )
if enableDeprecatedNames {
telemetryAllowedPrefixes = append ( telemetryAllowedPrefixes , "consul.consul" )
} else {
telemetryBlockedPrefixes = append ( telemetryBlockedPrefixes , "consul.consul" )
}
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// 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
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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 ) ,
ACLEnableKeyListPolicy : b . boolVal ( c . ACLEnableKeyListPolicy ) ,
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 ) ,
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// 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 ,
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TelemetryMetricsPrefix : b . stringVal ( c . Telemetry . MetricsPrefix ) ,
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TelemetryStatsdAddr : b . stringVal ( c . Telemetry . StatsdAddr ) ,
TelemetryStatsiteAddr : b . stringVal ( c . Telemetry . StatsiteAddr ) ,
// 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 ) ,
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EnableUI : b . boolVal ( c . UI ) ,
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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 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 ) ,
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ScriptArgs : v . ScriptArgs ,
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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
}