daemon/config.go - third_party/github.com/moby/moby - Git at Google

 package daemon

 import (
 	"bytes"
 	"encoding/json"
 	"fmt"
 	"io"
 	"io/ioutil"
 	"strings"
 	"sync"

 	"github.com/Sirupsen/logrus"
 	"github.com/docker/docker/opts"
 	"github.com/docker/docker/pkg/discovery"
 	flag "github.com/docker/docker/pkg/mflag"
 	"github.com/imdario/mergo"
 )

 const (
 	defaultNetworkMtu    = 1500
 	disableNetworkBridge = "none"
 )

 // flatOptions contains configuration keys
 // that MUST NOT be parsed as deep structures.
 // Use this to differentiate these options
 // with others like the ones in CommonTLSOptions.
 var flatOptions = map[string]bool{
 	"cluster-store-opts": true,
 	"log-opts":           true,
 }

 // LogConfig represents the default log configuration.
 // It includes json tags to deserialize configuration from a file
 // using the same names that the flags in the command line uses.
 type LogConfig struct {
 	Type   string            `json:"log-driver,omitempty"`
 	Config map[string]string `json:"log-opts,omitempty"`
 }

 // CommonTLSOptions defines TLS configuration for the daemon server.
 // It includes json tags to deserialize configuration from a file
 // using the same names that the flags in the command line uses.
 type CommonTLSOptions struct {
 	CAFile   string `json:"tlscacert,omitempty"`
 	CertFile string `json:"tlscert,omitempty"`
 	KeyFile  string `json:"tlskey,omitempty"`
 }

 // CommonConfig defines the configuration of a docker daemon which are
 // common across platforms.
 // It includes json tags to deserialize configuration from a file
 // using the same names that the flags in the command line uses.
 type CommonConfig struct {
 	AuthorizationPlugins []string            `json:"authorization-plugins,omitempty"` // AuthorizationPlugins holds list of authorization plugins
 	AutoRestart          bool                `json:"-"`
 	Context              map[string][]string `json:"-"`
 	DisableBridge        bool                `json:"-"`
 	DNS                  []string            `json:"dns,omitempty"`
 	DNSOptions           []string            `json:"dns-opts,omitempty"`
 	DNSSearch            []string            `json:"dns-search,omitempty"`
 	ExecOptions          []string            `json:"exec-opts,omitempty"`
 	ExecRoot             string              `json:"exec-root,omitempty"`
 	GraphDriver          string              `json:"storage-driver,omitempty"`
 	GraphOptions         []string            `json:"storage-opts,omitempty"`
 	Labels               []string            `json:"labels,omitempty"`
 	Mtu                  int                 `json:"mtu,omitempty"`
 	Pidfile              string              `json:"pidfile,omitempty"`
 	Root                 string              `json:"graph,omitempty"`
 	TrustKeyPath         string              `json:"-"`

 	// ClusterStore is the storage backend used for the cluster information. It is used by both
 	// multihost networking (to store networks and endpoints information) and by the node discovery
 	// mechanism.
 	ClusterStore string `json:"cluster-store,omitempty"`

 	// ClusterOpts is used to pass options to the discovery package for tuning libkv settings, such
 	// as TLS configuration settings.
 	ClusterOpts map[string]string `json:"cluster-store-opts,omitempty"`

 	// ClusterAdvertise is the network endpoint that the Engine advertises for the purpose of node
 	// discovery. This should be a 'host:port' combination on which that daemon instance is
 	// reachable by other hosts.
 	ClusterAdvertise string `json:"cluster-advertise,omitempty"`

 	Debug     bool     `json:"debug,omitempty"`
 	Hosts     []string `json:"hosts,omitempty"`
 	LogLevel  string   `json:"log-level,omitempty"`
 	TLS       bool     `json:"tls,omitempty"`
 	TLSVerify bool     `json:"tlsverify,omitempty"`

 	// Embedded structs that allow config
 	// deserialization without the full struct.
 	CommonTLSOptions
 	LogConfig
 	bridgeConfig // bridgeConfig holds bridge network specific configuration.

 	reloadLock sync.Mutex
 	valuesSet  map[string]interface{}
 }

 // InstallCommonFlags adds command-line options to the top-level flag parser for
 // the current process.
 // Subsequent calls to `flag.Parse` will populate config with values parsed
 // from the command-line.
 func (config *Config) InstallCommonFlags(cmd *flag.FlagSet, usageFn func(string) string) {
 	cmd.Var(opts.NewNamedListOptsRef("storage-opts", &config.GraphOptions, nil), []string{"-storage-opt"}, usageFn("Set storage driver options"))
 	cmd.Var(opts.NewNamedListOptsRef("authorization-plugins", &config.AuthorizationPlugins, nil), []string{"-authorization-plugin"}, usageFn("List authorization plugins in order from first evaluator to last"))
 	cmd.Var(opts.NewNamedListOptsRef("exec-opts", &config.ExecOptions, nil), []string{"-exec-opt"}, usageFn("Set exec driver options"))
 	cmd.StringVar(&config.Pidfile, []string{"p", "-pidfile"}, defaultPidFile, usageFn("Path to use for daemon PID file"))
 	cmd.StringVar(&config.Root, []string{"g", "-graph"}, defaultGraph, usageFn("Root of the Docker runtime"))
 	cmd.StringVar(&config.ExecRoot, []string{"-exec-root"}, "/var/run/docker", usageFn("Root of the Docker execdriver"))
 	cmd.BoolVar(&config.AutoRestart, []string{"#r", "#-restart"}, true, usageFn("--restart on the daemon has been deprecated in favor of --restart policies on docker run"))
 	cmd.StringVar(&config.GraphDriver, []string{"s", "-storage-driver"}, "", usageFn("Storage driver to use"))
 	cmd.IntVar(&config.Mtu, []string{"#mtu", "-mtu"}, 0, usageFn("Set the containers network MTU"))
 	// FIXME: why the inconsistency between "hosts" and "sockets"?
 	cmd.Var(opts.NewListOptsRef(&config.DNS, opts.ValidateIPAddress), []string{"#dns", "-dns"}, usageFn("DNS server to use"))
 	cmd.Var(opts.NewNamedListOptsRef("dns-opts", &config.DNSOptions, nil), []string{"-dns-opt"}, usageFn("DNS options to use"))
 	cmd.Var(opts.NewListOptsRef(&config.DNSSearch, opts.ValidateDNSSearch), []string{"-dns-search"}, usageFn("DNS search domains to use"))
 	cmd.Var(opts.NewNamedListOptsRef("labels", &config.Labels, opts.ValidateLabel), []string{"-label"}, usageFn("Set key=value labels to the daemon"))
 	cmd.StringVar(&config.LogConfig.Type, []string{"-log-driver"}, "json-file", usageFn("Default driver for container logs"))
 	cmd.Var(opts.NewNamedMapOpts("log-opts", config.LogConfig.Config, nil), []string{"-log-opt"}, usageFn("Set log driver options"))
 	cmd.StringVar(&config.ClusterAdvertise, []string{"-cluster-advertise"}, "", usageFn("Address or interface name to advertise"))
 	cmd.StringVar(&config.ClusterStore, []string{"-cluster-store"}, "", usageFn("Set the cluster store"))
 	cmd.Var(opts.NewNamedMapOpts("cluster-store-opts", config.ClusterOpts, nil), []string{"-cluster-store-opt"}, usageFn("Set cluster store options"))
 }

 // IsValueSet returns true if a configuration value
 // was explicitly set in the configuration file.
 func (config *Config) IsValueSet(name string) bool {
 	if config.valuesSet == nil {
 		return false
 	}
 	_, ok := config.valuesSet[name]
 	return ok
 }

 func parseClusterAdvertiseSettings(clusterStore, clusterAdvertise string) (string, error) {
 	if clusterAdvertise == "" {
 		return "", errDiscoveryDisabled
 	}
 	if clusterStore == "" {
 		return "", fmt.Errorf("invalid cluster configuration. --cluster-advertise must be accompanied by --cluster-store configuration")
 	}

 	advertise, err := discovery.ParseAdvertise(clusterAdvertise)
 	if err != nil {
 		return "", fmt.Errorf("discovery advertise parsing failed (%v)", err)
 	}
 	return advertise, nil
 }

 // ReloadConfiguration reads the configuration in the host and reloads the daemon and server.
 func ReloadConfiguration(configFile string, flags *flag.FlagSet, reload func(*Config)) {
 	logrus.Infof("Got signal to reload configuration, reloading from: %s", configFile)
 	newConfig, err := getConflictFreeConfiguration(configFile, flags)
 	if err != nil {
 		logrus.Error(err)
 	} else {
 		reload(newConfig)
 	}
 }

 // MergeDaemonConfigurations reads a configuration file,
 // loads the file configuration in an isolated structure,
 // and merges the configuration provided from flags on top
 // if there are no conflicts.
 func MergeDaemonConfigurations(flagsConfig *Config, flags *flag.FlagSet, configFile string) (*Config, error) {
 	fileConfig, err := getConflictFreeConfiguration(configFile, flags)
 	if err != nil {
 		return nil, err
 	}

 	// merge flags configuration on top of the file configuration
 	if err := mergo.Merge(fileConfig, flagsConfig); err != nil {
 		return nil, err
 	}

 	return fileConfig, nil
 }

 // getConflictFreeConfiguration loads the configuration from a JSON file.
 // It compares that configuration with the one provided by the flags,
 // and returns an error if there are conflicts.
 func getConflictFreeConfiguration(configFile string, flags *flag.FlagSet) (*Config, error) {
 	b, err := ioutil.ReadFile(configFile)
 	if err != nil {
 		return nil, err
 	}

 	var config Config
 	var reader io.Reader
 	if flags != nil {
 		var jsonConfig map[string]interface{}
 		reader = bytes.NewReader(b)
 		if err := json.NewDecoder(reader).Decode(&jsonConfig); err != nil {
 			return nil, err
 		}

 		configSet := configValuesSet(jsonConfig)

 		if err := findConfigurationConflicts(configSet, flags); err != nil {
 			return nil, err
 		}

 		config.valuesSet = configSet
 	}

 	reader = bytes.NewReader(b)
 	err = json.NewDecoder(reader).Decode(&config)
 	return &config, err
 }

 // configValuesSet returns the configuration values explicitly set in the file.
 func configValuesSet(config map[string]interface{}) map[string]interface{} {
 	flatten := make(map[string]interface{})
 	for k, v := range config {
 		if m, isMap := v.(map[string]interface{}); isMap && !flatOptions[k] {
 			for km, vm := range m {
 				flatten[km] = vm
 			}
 			continue
 		}

 		flatten[k] = v
 	}
 	return flatten
 }

 // findConfigurationConflicts iterates over the provided flags searching for
 // duplicated configurations and unknown keys. It returns an error with all the conflicts if
 // it finds any.
 func findConfigurationConflicts(config map[string]interface{}, flags *flag.FlagSet) error {
 	// 1. Search keys from the file that we don't recognize as flags.
 	unknownKeys := make(map[string]interface{})
 	for key, value := range config {
 		flagName := "-" + key
 		if flag := flags.Lookup(flagName); flag == nil {
 			unknownKeys[key] = value
 		}
 	}

 	// 2. Discard values that implement NamedOption.
 	// Their configuration name differs from their flag name, like `labels` and `label`.
 	unknownNamedConflicts := func(f *flag.Flag) {
 		if namedOption, ok := f.Value.(opts.NamedOption); ok {
 			if _, valid := unknownKeys[namedOption.Name()]; valid {
 				delete(unknownKeys, namedOption.Name())
 			}
 		}
 	}
 	flags.VisitAll(unknownNamedConflicts)

 	if len(unknownKeys) > 0 {
 		var unknown []string
 		for key := range unknownKeys {
 			unknown = append(unknown, key)
 		}
 		return fmt.Errorf("the following directives don't match any configuration option: %s", strings.Join(unknown, ", "))
 	}

 	var conflicts []string
 	printConflict := func(name string, flagValue, fileValue interface{}) string {
 		return fmt.Sprintf("%s: (from flag: %v, from file: %v)", name, flagValue, fileValue)
 	}

 	// 3. Search keys that are present as a flag and as a file option.
 	duplicatedConflicts := func(f *flag.Flag) {
 		// search option name in the json configuration payload if the value is a named option
 		if namedOption, ok := f.Value.(opts.NamedOption); ok {
 			if optsValue, ok := config[namedOption.Name()]; ok {
 				conflicts = append(conflicts, printConflict(namedOption.Name(), f.Value.String(), optsValue))
 			}
 		} else {
 			// search flag name in the json configuration payload without trailing dashes
 			for _, name := range f.Names {
 				name = strings.TrimLeft(name, "-")

 				if value, ok := config[name]; ok {
 					conflicts = append(conflicts, printConflict(name, f.Value.String(), value))
 					break
 				}
 			}
 		}
 	}

 	flags.Visit(duplicatedConflicts)

 	if len(conflicts) > 0 {
 		return fmt.Errorf("the following directives are specified both as a flag and in the configuration file: %s", strings.Join(conflicts, ", "))
 	}
 	return nil
 }
	package daemon

	import (
	"bytes"
	"encoding/json"
	"fmt"
	"io"
	"io/ioutil"
	"strings"
	"sync"

	"github.com/Sirupsen/logrus"
	"github.com/docker/docker/opts"
	"github.com/docker/docker/pkg/discovery"
	flag "github.com/docker/docker/pkg/mflag"
	"github.com/imdario/mergo"
	)

	const (
	defaultNetworkMtu = 1500
	disableNetworkBridge = "none"
	)

	// flatOptions contains configuration keys
	// that MUST NOT be parsed as deep structures.
	// Use this to differentiate these options
	// with others like the ones in CommonTLSOptions.
	var flatOptions = map[string]bool{
	"cluster-store-opts": true,
	"log-opts": true,
	}

	// LogConfig represents the default log configuration.
	// It includes json tags to deserialize configuration from a file
	// using the same names that the flags in the command line uses.
	type LogConfig struct {
	Type string `json:"log-driver,omitempty"`
	Config map[string]string `json:"log-opts,omitempty"`
	}

	// CommonTLSOptions defines TLS configuration for the daemon server.
	// It includes json tags to deserialize configuration from a file
	// using the same names that the flags in the command line uses.
	type CommonTLSOptions struct {
	CAFile string `json:"tlscacert,omitempty"`
	CertFile string `json:"tlscert,omitempty"`
	KeyFile string `json:"tlskey,omitempty"`
	}

	// CommonConfig defines the configuration of a docker daemon which are
	// common across platforms.
	// It includes json tags to deserialize configuration from a file
	// using the same names that the flags in the command line uses.
	type CommonConfig struct {
	AuthorizationPlugins []string `json:"authorization-plugins,omitempty"` // AuthorizationPlugins holds list of authorization plugins
	AutoRestart bool `json:"-"`
	Context map[string][]string `json:"-"`
	DisableBridge bool `json:"-"`
	DNS []string `json:"dns,omitempty"`
	DNSOptions []string `json:"dns-opts,omitempty"`
	DNSSearch []string `json:"dns-search,omitempty"`
	ExecOptions []string `json:"exec-opts,omitempty"`
	ExecRoot string `json:"exec-root,omitempty"`
	GraphDriver string `json:"storage-driver,omitempty"`
	GraphOptions []string `json:"storage-opts,omitempty"`
	Labels []string `json:"labels,omitempty"`
	Mtu int `json:"mtu,omitempty"`
	Pidfile string `json:"pidfile,omitempty"`
	Root string `json:"graph,omitempty"`
	TrustKeyPath string `json:"-"`

	// ClusterStore is the storage backend used for the cluster information. It is used by both
	// multihost networking (to store networks and endpoints information) and by the node discovery
	// mechanism.
	ClusterStore string `json:"cluster-store,omitempty"`

	// ClusterOpts is used to pass options to the discovery package for tuning libkv settings, such
	// as TLS configuration settings.
	ClusterOpts map[string]string `json:"cluster-store-opts,omitempty"`

	// ClusterAdvertise is the network endpoint that the Engine advertises for the purpose of node
	// discovery. This should be a 'host:port' combination on which that daemon instance is
	// reachable by other hosts.
	ClusterAdvertise string `json:"cluster-advertise,omitempty"`

	Debug bool `json:"debug,omitempty"`
	Hosts []string `json:"hosts,omitempty"`
	LogLevel string `json:"log-level,omitempty"`
	TLS bool `json:"tls,omitempty"`
	TLSVerify bool `json:"tlsverify,omitempty"`

	// Embedded structs that allow config
	// deserialization without the full struct.
	CommonTLSOptions
	LogConfig
	bridgeConfig // bridgeConfig holds bridge network specific configuration.

	reloadLock sync.Mutex
	valuesSet map[string]interface{}
	}

	// InstallCommonFlags adds command-line options to the top-level flag parser for
	// the current process.
	// Subsequent calls to `flag.Parse` will populate config with values parsed
	// from the command-line.
	func (config Config) InstallCommonFlags(cmd flag.FlagSet, usageFn func(string) string) {
	cmd.Var(opts.NewNamedListOptsRef("storage-opts", &config.GraphOptions, nil), []string{"-storage-opt"}, usageFn("Set storage driver options"))
	cmd.Var(opts.NewNamedListOptsRef("authorization-plugins", &config.AuthorizationPlugins, nil), []string{"-authorization-plugin"}, usageFn("List authorization plugins in order from first evaluator to last"))
	cmd.Var(opts.NewNamedListOptsRef("exec-opts", &config.ExecOptions, nil), []string{"-exec-opt"}, usageFn("Set exec driver options"))
	cmd.StringVar(&config.Pidfile, []string{"p", "-pidfile"}, defaultPidFile, usageFn("Path to use for daemon PID file"))
	cmd.StringVar(&config.Root, []string{"g", "-graph"}, defaultGraph, usageFn("Root of the Docker runtime"))
	cmd.StringVar(&config.ExecRoot, []string{"-exec-root"}, "/var/run/docker", usageFn("Root of the Docker execdriver"))
	cmd.BoolVar(&config.AutoRestart, []string{"#r", "#-restart"}, true, usageFn("--restart on the daemon has been deprecated in favor of --restart policies on docker run"))
	cmd.StringVar(&config.GraphDriver, []string{"s", "-storage-driver"}, "", usageFn("Storage driver to use"))
	cmd.IntVar(&config.Mtu, []string{"#mtu", "-mtu"}, 0, usageFn("Set the containers network MTU"))
	// FIXME: why the inconsistency between "hosts" and "sockets"?
	cmd.Var(opts.NewListOptsRef(&config.DNS, opts.ValidateIPAddress), []string{"#dns", "-dns"}, usageFn("DNS server to use"))
	cmd.Var(opts.NewNamedListOptsRef("dns-opts", &config.DNSOptions, nil), []string{"-dns-opt"}, usageFn("DNS options to use"))
	cmd.Var(opts.NewListOptsRef(&config.DNSSearch, opts.ValidateDNSSearch), []string{"-dns-search"}, usageFn("DNS search domains to use"))
	cmd.Var(opts.NewNamedListOptsRef("labels", &config.Labels, opts.ValidateLabel), []string{"-label"}, usageFn("Set key=value labels to the daemon"))
	cmd.StringVar(&config.LogConfig.Type, []string{"-log-driver"}, "json-file", usageFn("Default driver for container logs"))
	cmd.Var(opts.NewNamedMapOpts("log-opts", config.LogConfig.Config, nil), []string{"-log-opt"}, usageFn("Set log driver options"))
	cmd.StringVar(&config.ClusterAdvertise, []string{"-cluster-advertise"}, "", usageFn("Address or interface name to advertise"))
	cmd.StringVar(&config.ClusterStore, []string{"-cluster-store"}, "", usageFn("Set the cluster store"))
	cmd.Var(opts.NewNamedMapOpts("cluster-store-opts", config.ClusterOpts, nil), []string{"-cluster-store-opt"}, usageFn("Set cluster store options"))
	}

	// IsValueSet returns true if a configuration value
	// was explicitly set in the configuration file.
	func (config *Config) IsValueSet(name string) bool {
	if config.valuesSet == nil {
	return false
	}
	_, ok := config.valuesSet[name]
	return ok
	}

	func parseClusterAdvertiseSettings(clusterStore, clusterAdvertise string) (string, error) {
	if clusterAdvertise == "" {
	return "", errDiscoveryDisabled
	}
	if clusterStore == "" {
	return "", fmt.Errorf("invalid cluster configuration. --cluster-advertise must be accompanied by --cluster-store configuration")
	}

	advertise, err := discovery.ParseAdvertise(clusterAdvertise)
	if err != nil {
	return "", fmt.Errorf("discovery advertise parsing failed (%v)", err)
	}
	return advertise, nil
	}

	// ReloadConfiguration reads the configuration in the host and reloads the daemon and server.
	func ReloadConfiguration(configFile string, flags flag.FlagSet, reload func(Config)) {
	logrus.Infof("Got signal to reload configuration, reloading from: %s", configFile)
	newConfig, err := getConflictFreeConfiguration(configFile, flags)
	if err != nil {
	logrus.Error(err)
	} else {
	reload(newConfig)
	}
	}

	// MergeDaemonConfigurations reads a configuration file,
	// loads the file configuration in an isolated structure,
	// and merges the configuration provided from flags on top
	// if there are no conflicts.
	func MergeDaemonConfigurations(flagsConfig Config, flags flag.FlagSet, configFile string) (*Config, error) {
	fileConfig, err := getConflictFreeConfiguration(configFile, flags)
	if err != nil {
	return nil, err
	}

	// merge flags configuration on top of the file configuration
	if err := mergo.Merge(fileConfig, flagsConfig); err != nil {
	return nil, err
	}

	return fileConfig, nil
	}

	// getConflictFreeConfiguration loads the configuration from a JSON file.
	// It compares that configuration with the one provided by the flags,
	// and returns an error if there are conflicts.
	func getConflictFreeConfiguration(configFile string, flags flag.FlagSet) (Config, error) {
	b, err := ioutil.ReadFile(configFile)
	if err != nil {
	return nil, err
	}

	var config Config
	var reader io.Reader
	if flags != nil {
	var jsonConfig map[string]interface{}
	reader = bytes.NewReader(b)
	if err := json.NewDecoder(reader).Decode(&jsonConfig); err != nil {
	return nil, err
	}

	configSet := configValuesSet(jsonConfig)

	if err := findConfigurationConflicts(configSet, flags); err != nil {
	return nil, err
	}

	config.valuesSet = configSet
	}

	reader = bytes.NewReader(b)
	err = json.NewDecoder(reader).Decode(&config)
	return &config, err
	}

	// configValuesSet returns the configuration values explicitly set in the file.
	func configValuesSet(config map[string]interface{}) map[string]interface{} {
	flatten := make(map[string]interface{})
	for k, v := range config {
	if m, isMap := v.(map[string]interface{}); isMap && !flatOptions[k] {
	for km, vm := range m {
	flatten[km] = vm
	}
	continue
	}

	flatten[k] = v
	}
	return flatten
	}

	// findConfigurationConflicts iterates over the provided flags searching for
	// duplicated configurations and unknown keys. It returns an error with all the conflicts if
	// it finds any.
	func findConfigurationConflicts(config map[string]interface{}, flags *flag.FlagSet) error {
	// 1. Search keys from the file that we don't recognize as flags.
	unknownKeys := make(map[string]interface{})
	for key, value := range config {
	flagName := "-" + key
	if flag := flags.Lookup(flagName); flag == nil {
	unknownKeys[key] = value
	}
	}

	// 2. Discard values that implement NamedOption.
	// Their configuration name differs from their flag name, like `labels` and `label`.
	unknownNamedConflicts := func(f *flag.Flag) {
	if namedOption, ok := f.Value.(opts.NamedOption); ok {
	if _, valid := unknownKeys[namedOption.Name()]; valid {
	delete(unknownKeys, namedOption.Name())
	}
	}
	}
	flags.VisitAll(unknownNamedConflicts)

	if len(unknownKeys) > 0 {
	var unknown []string
	for key := range unknownKeys {
	unknown = append(unknown, key)
	}
	return fmt.Errorf("the following directives don't match any configuration option: %s", strings.Join(unknown, ", "))
	}

	var conflicts []string
	printConflict := func(name string, flagValue, fileValue interface{}) string {
	return fmt.Sprintf("%s: (from flag: %v, from file: %v)", name, flagValue, fileValue)
	}

	// 3. Search keys that are present as a flag and as a file option.
	duplicatedConflicts := func(f *flag.Flag) {
	// search option name in the json configuration payload if the value is a named option
	if namedOption, ok := f.Value.(opts.NamedOption); ok {
	if optsValue, ok := config[namedOption.Name()]; ok {
	conflicts = append(conflicts, printConflict(namedOption.Name(), f.Value.String(), optsValue))
	}
	} else {
	// search flag name in the json configuration payload without trailing dashes
	for _, name := range f.Names {
	name = strings.TrimLeft(name, "-")

	if value, ok := config[name]; ok {
	conflicts = append(conflicts, printConflict(name, f.Value.String(), value))
	break
	}
	}
	}
	}

	flags.Visit(duplicatedConflicts)

	if len(conflicts) > 0 {
	return fmt.Errorf("the following directives are specified both as a flag and in the configuration file: %s", strings.Join(conflicts, ", "))
	}
	return nil
	}