headscale/config.go

544 lines
15 KiB
Go

package headscale
import (
"crypto/tls"
"errors"
"fmt"
"io/fs"
"net/url"
"strings"
"time"
"github.com/coreos/go-oidc/v3/oidc"
"github.com/rs/zerolog"
"github.com/rs/zerolog/log"
"github.com/spf13/viper"
"inet.af/netaddr"
"tailscale.com/tailcfg"
"tailscale.com/types/dnstype"
)
const (
tlsALPN01ChallengeType = "TLS-ALPN-01"
http01ChallengeType = "HTTP-01"
)
// Config contains the initial Headscale configuration.
type Config struct {
ServerURL string
Addr string
MetricsAddr string
GRPCAddr string
GRPCAllowInsecure bool
EphemeralNodeInactivityTimeout time.Duration
NodeUpdateCheckInterval time.Duration
IPPrefixes []netaddr.IPPrefix
PrivateKeyPath string
BaseDomain string
LogLevel zerolog.Level
DisableUpdateCheck bool
DERP DERPConfig
DBtype string
DBpath string
DBhost string
DBport int
DBname string
DBuser string
DBpass string
TLS TLSConfig
ACMEURL string
ACMEEmail string
DNSConfig *tailcfg.DNSConfig
UnixSocket string
UnixSocketPermission fs.FileMode
OIDC OIDCConfig
LogTail LogTailConfig
RandomizeClientPort bool
CLI CLIConfig
ACL ACLConfig
}
type TLSConfig struct {
CertPath string
KeyPath string
ClientAuthMode tls.ClientAuthType
LetsEncrypt LetsEncryptConfig
}
type LetsEncryptConfig struct {
Listen string
Hostname string
CacheDir string
ChallengeType string
}
type OIDCConfig struct {
Issuer string
ClientID string
ClientSecret string
Scope []string
ExtraParams map[string]string
AllowedDomains []string
AllowedUsers []string
StripEmaildomain bool
}
type DERPConfig struct {
ServerEnabled bool
ServerRegionID int
ServerRegionCode string
ServerRegionName string
STUNAddr string
URLs []url.URL
Paths []string
AutoUpdate bool
UpdateFrequency time.Duration
}
type LogTailConfig struct {
Enabled bool
}
type CLIConfig struct {
Address string
APIKey string
Timeout time.Duration
Insecure bool
}
type ACLConfig struct {
PolicyPath string
}
func LoadConfig(path string, isFile bool) error {
if isFile {
viper.SetConfigFile(path)
} else {
viper.SetConfigName("config")
if path == "" {
viper.AddConfigPath("/etc/headscale/")
viper.AddConfigPath("$HOME/.headscale")
viper.AddConfigPath(".")
} else {
// For testing
viper.AddConfigPath(path)
}
}
viper.SetEnvPrefix("headscale")
viper.SetEnvKeyReplacer(strings.NewReplacer(".", "_"))
viper.AutomaticEnv()
viper.SetDefault("tls_letsencrypt_cache_dir", "/var/www/.cache")
viper.SetDefault("tls_letsencrypt_challenge_type", http01ChallengeType)
viper.SetDefault("tls_client_auth_mode", "relaxed")
viper.SetDefault("log_level", "info")
viper.SetDefault("dns_config", nil)
viper.SetDefault("derp.server.enabled", false)
viper.SetDefault("derp.server.stun.enabled", true)
viper.SetDefault("unix_socket", "/var/run/headscale.sock")
viper.SetDefault("unix_socket_permission", "0o770")
viper.SetDefault("grpc_listen_addr", ":50443")
viper.SetDefault("grpc_allow_insecure", false)
viper.SetDefault("cli.timeout", "5s")
viper.SetDefault("cli.insecure", false)
viper.SetDefault("oidc.scope", []string{oidc.ScopeOpenID, "profile", "email"})
viper.SetDefault("oidc.strip_email_domain", true)
viper.SetDefault("logtail.enabled", false)
viper.SetDefault("randomize_client_port", false)
viper.SetDefault("ephemeral_node_inactivity_timeout", "120s")
viper.SetDefault("node_update_check_interval", "10s")
if err := viper.ReadInConfig(); err != nil {
log.Warn().Err(err).Msg("Failed to read configuration from disk")
return fmt.Errorf("fatal error reading config file: %w", err)
}
// Collect any validation errors and return them all at once
var errorText string
if (viper.GetString("tls_letsencrypt_hostname") != "") &&
((viper.GetString("tls_cert_path") != "") || (viper.GetString("tls_key_path") != "")) {
errorText += "Fatal config error: set either tls_letsencrypt_hostname or tls_cert_path/tls_key_path, not both\n"
}
if (viper.GetString("tls_letsencrypt_hostname") != "") &&
(viper.GetString("tls_letsencrypt_challenge_type") == tlsALPN01ChallengeType) &&
(!strings.HasSuffix(viper.GetString("listen_addr"), ":443")) {
// this is only a warning because there could be something sitting in front of headscale that redirects the traffic (e.g. an iptables rule)
log.Warn().
Msg("Warning: when using tls_letsencrypt_hostname with TLS-ALPN-01 as challenge type, headscale must be reachable on port 443, i.e. listen_addr should probably end in :443")
}
if (viper.GetString("tls_letsencrypt_challenge_type") != http01ChallengeType) &&
(viper.GetString("tls_letsencrypt_challenge_type") != tlsALPN01ChallengeType) {
errorText += "Fatal config error: the only supported values for tls_letsencrypt_challenge_type are HTTP-01 and TLS-ALPN-01\n"
}
if !strings.HasPrefix(viper.GetString("server_url"), "http://") &&
!strings.HasPrefix(viper.GetString("server_url"), "https://") {
errorText += "Fatal config error: server_url must start with https:// or http://\n"
}
_, authModeValid := LookupTLSClientAuthMode(
viper.GetString("tls_client_auth_mode"),
)
if !authModeValid {
errorText += fmt.Sprintf(
"Invalid tls_client_auth_mode supplied: %s. Accepted values: %s, %s, %s.",
viper.GetString("tls_client_auth_mode"),
DisabledClientAuth,
RelaxedClientAuth,
EnforcedClientAuth)
}
// Minimum inactivity time out is keepalive timeout (60s) plus a few seconds
// to avoid races
minInactivityTimeout, _ := time.ParseDuration("65s")
if viper.GetDuration("ephemeral_node_inactivity_timeout") <= minInactivityTimeout {
errorText += fmt.Sprintf(
"Fatal config error: ephemeral_node_inactivity_timeout (%s) is set too low, must be more than %s",
viper.GetString("ephemeral_node_inactivity_timeout"),
minInactivityTimeout,
)
}
maxNodeUpdateCheckInterval, _ := time.ParseDuration("60s")
if viper.GetDuration("node_update_check_interval") > maxNodeUpdateCheckInterval {
errorText += fmt.Sprintf(
"Fatal config error: node_update_check_interval (%s) is set too high, must be less than %s",
viper.GetString("node_update_check_interval"),
maxNodeUpdateCheckInterval,
)
}
if errorText != "" {
//nolint
return errors.New(strings.TrimSuffix(errorText, "\n"))
} else {
return nil
}
}
func GetTLSConfig() TLSConfig {
tlsClientAuthMode, _ := LookupTLSClientAuthMode(
viper.GetString("tls_client_auth_mode"),
)
return TLSConfig{
LetsEncrypt: LetsEncryptConfig{
Hostname: viper.GetString("tls_letsencrypt_hostname"),
Listen: viper.GetString("tls_letsencrypt_listen"),
CacheDir: AbsolutePathFromConfigPath(
viper.GetString("tls_letsencrypt_cache_dir"),
),
ChallengeType: viper.GetString("tls_letsencrypt_challenge_type"),
},
CertPath: AbsolutePathFromConfigPath(
viper.GetString("tls_cert_path"),
),
KeyPath: AbsolutePathFromConfigPath(
viper.GetString("tls_key_path"),
),
ClientAuthMode: tlsClientAuthMode,
}
}
func GetDERPConfig() DERPConfig {
serverEnabled := viper.GetBool("derp.server.enabled")
serverRegionID := viper.GetInt("derp.server.region_id")
serverRegionCode := viper.GetString("derp.server.region_code")
serverRegionName := viper.GetString("derp.server.region_name")
stunAddr := viper.GetString("derp.server.stun_listen_addr")
if serverEnabled && stunAddr == "" {
log.Fatal().
Msg("derp.server.stun_listen_addr must be set if derp.server.enabled is true")
}
urlStrs := viper.GetStringSlice("derp.urls")
urls := make([]url.URL, len(urlStrs))
for index, urlStr := range urlStrs {
urlAddr, err := url.Parse(urlStr)
if err != nil {
log.Error().
Str("url", urlStr).
Err(err).
Msg("Failed to parse url, ignoring...")
}
urls[index] = *urlAddr
}
paths := viper.GetStringSlice("derp.paths")
autoUpdate := viper.GetBool("derp.auto_update_enabled")
updateFrequency := viper.GetDuration("derp.update_frequency")
return DERPConfig{
ServerEnabled: serverEnabled,
ServerRegionID: serverRegionID,
ServerRegionCode: serverRegionCode,
ServerRegionName: serverRegionName,
STUNAddr: stunAddr,
URLs: urls,
Paths: paths,
AutoUpdate: autoUpdate,
UpdateFrequency: updateFrequency,
}
}
func GetLogTailConfig() LogTailConfig {
enabled := viper.GetBool("logtail.enabled")
return LogTailConfig{
Enabled: enabled,
}
}
func GetACLConfig() ACLConfig {
policyPath := viper.GetString("acl_policy_path")
return ACLConfig{
PolicyPath: policyPath,
}
}
func GetDNSConfig() (*tailcfg.DNSConfig, string) {
if viper.IsSet("dns_config") {
dnsConfig := &tailcfg.DNSConfig{}
if viper.IsSet("dns_config.nameservers") {
nameserversStr := viper.GetStringSlice("dns_config.nameservers")
nameservers := make([]netaddr.IP, len(nameserversStr))
resolvers := make([]*dnstype.Resolver, len(nameserversStr))
for index, nameserverStr := range nameserversStr {
nameserver, err := netaddr.ParseIP(nameserverStr)
if err != nil {
log.Error().
Str("func", "getDNSConfig").
Err(err).
Msgf("Could not parse nameserver IP: %s", nameserverStr)
}
nameservers[index] = nameserver
resolvers[index] = &dnstype.Resolver{
Addr: nameserver.String(),
}
}
dnsConfig.Nameservers = nameservers
dnsConfig.Resolvers = resolvers
}
if viper.IsSet("dns_config.restricted_nameservers") {
if len(dnsConfig.Nameservers) > 0 {
dnsConfig.Routes = make(map[string][]*dnstype.Resolver)
restrictedDNS := viper.GetStringMapStringSlice(
"dns_config.restricted_nameservers",
)
for domain, restrictedNameservers := range restrictedDNS {
restrictedResolvers := make(
[]*dnstype.Resolver,
len(restrictedNameservers),
)
for index, nameserverStr := range restrictedNameservers {
nameserver, err := netaddr.ParseIP(nameserverStr)
if err != nil {
log.Error().
Str("func", "getDNSConfig").
Err(err).
Msgf("Could not parse restricted nameserver IP: %s", nameserverStr)
}
restrictedResolvers[index] = &dnstype.Resolver{
Addr: nameserver.String(),
}
}
dnsConfig.Routes[domain] = restrictedResolvers
}
} else {
log.Warn().
Msg("Warning: dns_config.restricted_nameservers is set, but no nameservers are configured. Ignoring restricted_nameservers.")
}
}
if viper.IsSet("dns_config.domains") {
dnsConfig.Domains = viper.GetStringSlice("dns_config.domains")
}
if viper.IsSet("dns_config.magic_dns") {
magicDNS := viper.GetBool("dns_config.magic_dns")
if len(dnsConfig.Nameservers) > 0 {
dnsConfig.Proxied = magicDNS
} else if magicDNS {
log.Warn().
Msg("Warning: dns_config.magic_dns is set, but no nameservers are configured. Ignoring magic_dns.")
}
}
var baseDomain string
if viper.IsSet("dns_config.base_domain") {
baseDomain = viper.GetString("dns_config.base_domain")
} else {
baseDomain = "headscale.net" // does not really matter when MagicDNS is not enabled
}
return dnsConfig, baseDomain
}
return nil, ""
}
func GetHeadscaleConfig() (*Config, error) {
dnsConfig, baseDomain := GetDNSConfig()
derpConfig := GetDERPConfig()
logConfig := GetLogTailConfig()
randomizeClientPort := viper.GetBool("randomize_client_port")
configuredPrefixes := viper.GetStringSlice("ip_prefixes")
parsedPrefixes := make([]netaddr.IPPrefix, 0, len(configuredPrefixes)+1)
logLevelStr := viper.GetString("log_level")
logLevel, err := zerolog.ParseLevel(logLevelStr)
if err != nil {
logLevel = zerolog.DebugLevel
}
legacyPrefixField := viper.GetString("ip_prefix")
if len(legacyPrefixField) > 0 {
log.
Warn().
Msgf(
"%s, %s",
"use of 'ip_prefix' for configuration is deprecated",
"please see 'ip_prefixes' in the shipped example.",
)
legacyPrefix, err := netaddr.ParseIPPrefix(legacyPrefixField)
if err != nil {
panic(fmt.Errorf("failed to parse ip_prefix: %w", err))
}
parsedPrefixes = append(parsedPrefixes, legacyPrefix)
}
for i, prefixInConfig := range configuredPrefixes {
prefix, err := netaddr.ParseIPPrefix(prefixInConfig)
if err != nil {
panic(fmt.Errorf("failed to parse ip_prefixes[%d]: %w", i, err))
}
parsedPrefixes = append(parsedPrefixes, prefix)
}
prefixes := make([]netaddr.IPPrefix, 0, len(parsedPrefixes))
{
// dedup
normalizedPrefixes := make(map[string]int, len(parsedPrefixes))
for i, p := range parsedPrefixes {
normalized, _ := p.Range().Prefix()
normalizedPrefixes[normalized.String()] = i
}
// convert back to list
for _, i := range normalizedPrefixes {
prefixes = append(prefixes, parsedPrefixes[i])
}
}
if len(prefixes) < 1 {
prefixes = append(prefixes, netaddr.MustParseIPPrefix("100.64.0.0/10"))
log.Warn().
Msgf("'ip_prefixes' not configured, falling back to default: %v", prefixes)
}
return &Config{
ServerURL: viper.GetString("server_url"),
Addr: viper.GetString("listen_addr"),
MetricsAddr: viper.GetString("metrics_listen_addr"),
GRPCAddr: viper.GetString("grpc_listen_addr"),
GRPCAllowInsecure: viper.GetBool("grpc_allow_insecure"),
DisableUpdateCheck: viper.GetBool("disable_check_updates"),
LogLevel: logLevel,
IPPrefixes: prefixes,
PrivateKeyPath: AbsolutePathFromConfigPath(
viper.GetString("private_key_path"),
),
BaseDomain: baseDomain,
DERP: derpConfig,
EphemeralNodeInactivityTimeout: viper.GetDuration(
"ephemeral_node_inactivity_timeout",
),
NodeUpdateCheckInterval: viper.GetDuration(
"node_update_check_interval",
),
DBtype: viper.GetString("db_type"),
DBpath: AbsolutePathFromConfigPath(viper.GetString("db_path")),
DBhost: viper.GetString("db_host"),
DBport: viper.GetInt("db_port"),
DBname: viper.GetString("db_name"),
DBuser: viper.GetString("db_user"),
DBpass: viper.GetString("db_pass"),
TLS: GetTLSConfig(),
DNSConfig: dnsConfig,
ACMEEmail: viper.GetString("acme_email"),
ACMEURL: viper.GetString("acme_url"),
UnixSocket: viper.GetString("unix_socket"),
UnixSocketPermission: GetFileMode("unix_socket_permission"),
OIDC: OIDCConfig{
Issuer: viper.GetString("oidc.issuer"),
ClientID: viper.GetString("oidc.client_id"),
ClientSecret: viper.GetString("oidc.client_secret"),
Scope: viper.GetStringSlice("oidc.scope"),
ExtraParams: viper.GetStringMapString("oidc.extra_params"),
AllowedDomains: viper.GetStringSlice("oidc.allowed_domains"),
AllowedUsers: viper.GetStringSlice("oidc.allowed_users"),
StripEmaildomain: viper.GetBool("oidc.strip_email_domain"),
},
LogTail: logConfig,
RandomizeClientPort: randomizeClientPort,
CLI: CLIConfig{
Address: viper.GetString("cli.address"),
APIKey: viper.GetString("cli.api_key"),
Timeout: viper.GetDuration("cli.timeout"),
Insecure: viper.GetBool("cli.insecure"),
},
ACL: GetACLConfig(),
}, nil
}