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viper.go
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// Copyright © 2014 Steve Francia <[email protected]>.
//
// Use of this source code is governed by an MIT-style
// license that can be found in the LICENSE file.
// Viper is an application configuration system.
// It believes that applications can be configured a variety of ways
// via flags, ENVIRONMENT variables, configuration files retrieved
// from the file system, or a remote key/value store.
// Each item takes precedence over the item below it:
// overrides
// flag
// env
// config
// key/value store
// default
package viper
import (
"bytes"
"encoding/csv"
"errors"
"fmt"
"io"
"log"
"os"
"path/filepath"
"reflect"
"strconv"
"strings"
"sync"
"time"
"github.com/fsnotify/fsnotify"
"github.com/magiconair/properties"
"github.com/mitchellh/mapstructure"
"github.com/spf13/afero"
"github.com/spf13/cast"
jww "github.com/spf13/jwalterweatherman"
"github.com/spf13/pflag"
"github.com/subosito/gotenv"
"gopkg.in/ini.v1"
"github.com/spf13/viper/internal/encoding"
"github.com/spf13/viper/internal/encoding/hcl"
"github.com/spf13/viper/internal/encoding/json"
"github.com/spf13/viper/internal/encoding/toml"
"github.com/spf13/viper/internal/encoding/yaml"
)
// ConfigMarshalError happens when failing to marshal the configuration.
type ConfigMarshalError struct {
err error
}
// Error returns the formatted configuration error.
func (e ConfigMarshalError) Error() string {
return fmt.Sprintf("While marshaling config: %s", e.err.Error())
}
var v *Viper
type RemoteResponse struct {
Value []byte
Error error
}
var (
encoderRegistry = encoding.NewEncoderRegistry()
decoderRegistry = encoding.NewDecoderRegistry()
)
func init() {
v = New()
{
codec := yaml.Codec{}
encoderRegistry.RegisterEncoder("yaml", codec)
decoderRegistry.RegisterDecoder("yaml", codec)
encoderRegistry.RegisterEncoder("yml", codec)
decoderRegistry.RegisterDecoder("yml", codec)
}
{
codec := json.Codec{}
encoderRegistry.RegisterEncoder("json", codec)
decoderRegistry.RegisterDecoder("json", codec)
}
{
codec := toml.Codec{}
encoderRegistry.RegisterEncoder("toml", codec)
decoderRegistry.RegisterDecoder("toml", codec)
}
{
codec := hcl.Codec{}
encoderRegistry.RegisterEncoder("hcl", codec)
decoderRegistry.RegisterDecoder("hcl", codec)
}
}
type remoteConfigFactory interface {
Get(rp RemoteProvider) (io.Reader, error)
Watch(rp RemoteProvider) (io.Reader, error)
WatchChannel(rp RemoteProvider) (<-chan *RemoteResponse, chan bool)
}
// RemoteConfig is optional, see the remote package
var RemoteConfig remoteConfigFactory
// UnsupportedConfigError denotes encountering an unsupported
// configuration filetype.
type UnsupportedConfigError string
// Error returns the formatted configuration error.
func (str UnsupportedConfigError) Error() string {
return fmt.Sprintf("Unsupported Config Type %q", string(str))
}
// UnsupportedRemoteProviderError denotes encountering an unsupported remote
// provider. Currently only etcd and Consul are supported.
type UnsupportedRemoteProviderError string
// Error returns the formatted remote provider error.
func (str UnsupportedRemoteProviderError) Error() string {
return fmt.Sprintf("Unsupported Remote Provider Type %q", string(str))
}
// RemoteConfigError denotes encountering an error while trying to
// pull the configuration from the remote provider.
type RemoteConfigError string
// Error returns the formatted remote provider error
func (rce RemoteConfigError) Error() string {
return fmt.Sprintf("Remote Configurations Error: %s", string(rce))
}
// ConfigFileNotFoundError denotes failing to find configuration file.
type ConfigFileNotFoundError struct {
name, locations string
}
// Error returns the formatted configuration error.
func (fnfe ConfigFileNotFoundError) Error() string {
return fmt.Sprintf("Config File %q Not Found in %q", fnfe.name, fnfe.locations)
}
// ConfigFileAlreadyExistsError denotes failure to write new configuration file.
type ConfigFileAlreadyExistsError string
// Error returns the formatted error when configuration already exists.
func (faee ConfigFileAlreadyExistsError) Error() string {
return fmt.Sprintf("Config File %q Already Exists", string(faee))
}
// A DecoderConfigOption can be passed to viper.Unmarshal to configure
// mapstructure.DecoderConfig options
type DecoderConfigOption func(*mapstructure.DecoderConfig)
// DecodeHook returns a DecoderConfigOption which overrides the default
// DecoderConfig.DecodeHook value, the default is:
//
// mapstructure.ComposeDecodeHookFunc(
// mapstructure.StringToTimeDurationHookFunc(),
// mapstructure.StringToSliceHookFunc(","),
// )
func DecodeHook(hook mapstructure.DecodeHookFunc) DecoderConfigOption {
return func(c *mapstructure.DecoderConfig) {
c.DecodeHook = hook
}
}
// Viper is a prioritized configuration registry. It
// maintains a set of configuration sources, fetches
// values to populate those, and provides them according
// to the source's priority.
// The priority of the sources is the following:
// 1. overrides
// 2. flags
// 3. env. variables
// 4. config file
// 5. key/value store
// 6. defaults
//
// For example, if values from the following sources were loaded:
//
// Defaults : {
// "secret": "",
// "user": "default",
// "endpoint": "https://localhost"
// }
// Config : {
// "user": "root"
// "secret": "defaultsecret"
// }
// Env : {
// "secret": "somesecretkey"
// }
//
// The resulting config will have the following values:
//
// {
// "secret": "somesecretkey",
// "user": "root",
// "endpoint": "https://localhost"
// }
//
// Note: Vipers are not safe for concurrent Get() and Set() operations.
type Viper struct {
// Delimiter that separates a list of keys
// used to access a nested value in one go
keyDelim string
// A set of paths to look for the config file in
configPaths []string
// The filesystem to read config from.
fs afero.Fs
// A set of remote providers to search for the configuration
remoteProviders []*defaultRemoteProvider
// Name of file to look for inside the path
configName string
configFile string
configType string
configPermissions os.FileMode
envPrefix string
// Specific commands for ini parsing
iniLoadOptions ini.LoadOptions
automaticEnvApplied bool
envKeyReplacer StringReplacer
allowEmptyEnv bool
config map[string]interface{}
override map[string]interface{}
defaults map[string]interface{}
kvstore map[string]interface{}
pflags map[string]FlagValue
env map[string][]string
aliases map[string]string
typeByDefValue bool
// Store read properties on the object so that we can write back in order with comments.
// This will only be used if the configuration read is a properties file.
properties *properties.Properties
onConfigChange func(fsnotify.Event)
}
// New returns an initialized Viper instance.
func New() *Viper {
v := new(Viper)
v.keyDelim = "."
v.configName = "config"
v.configPermissions = os.FileMode(0644)
v.fs = afero.NewOsFs()
v.config = make(map[string]interface{})
v.override = make(map[string]interface{})
v.defaults = make(map[string]interface{})
v.kvstore = make(map[string]interface{})
v.pflags = make(map[string]FlagValue)
v.env = make(map[string][]string)
v.aliases = make(map[string]string)
v.typeByDefValue = false
return v
}
// Option configures Viper using the functional options paradigm popularized by Rob Pike and Dave Cheney.
// If you're unfamiliar with this style,
// see https://commandcenter.blogspot.com/2014/01/self-referential-functions-and-design.html and
// https://dave.cheney.net/2014/10/17/functional-options-for-friendly-apis.
type Option interface {
apply(v *Viper)
}
type optionFunc func(v *Viper)
func (fn optionFunc) apply(v *Viper) {
fn(v)
}
// KeyDelimiter sets the delimiter used for determining key parts.
// By default it's value is ".".
func KeyDelimiter(d string) Option {
return optionFunc(func(v *Viper) {
v.keyDelim = d
})
}
// StringReplacer applies a set of replacements to a string.
type StringReplacer interface {
// Replace returns a copy of s with all replacements performed.
Replace(s string) string
}
// EnvKeyReplacer sets a replacer used for mapping environment variables to internal keys.
func EnvKeyReplacer(r StringReplacer) Option {
return optionFunc(func(v *Viper) {
v.envKeyReplacer = r
})
}
// NewWithOptions creates a new Viper instance.
func NewWithOptions(opts ...Option) *Viper {
v := New()
for _, opt := range opts {
opt.apply(v)
}
return v
}
// Reset is intended for testing, will reset all to default settings.
// In the public interface for the viper package so applications
// can use it in their testing as well.
func Reset() {
v = New()
SupportedExts = []string{"json", "toml", "yaml", "yml", "properties", "props", "prop", "hcl", "dotenv", "env", "ini"}
SupportedRemoteProviders = []string{"etcd", "consul", "firestore"}
}
type defaultRemoteProvider struct {
provider string
endpoint string
path string
secretKeyring string
}
func (rp defaultRemoteProvider) Provider() string {
return rp.provider
}
func (rp defaultRemoteProvider) Endpoint() string {
return rp.endpoint
}
func (rp defaultRemoteProvider) Path() string {
return rp.path
}
func (rp defaultRemoteProvider) SecretKeyring() string {
return rp.secretKeyring
}
// RemoteProvider stores the configuration necessary
// to connect to a remote key/value store.
// Optional secretKeyring to unencrypt encrypted values
// can be provided.
type RemoteProvider interface {
Provider() string
Endpoint() string
Path() string
SecretKeyring() string
}
// SupportedExts are universally supported extensions.
var SupportedExts = []string{"json", "toml", "yaml", "yml", "properties", "props", "prop", "hcl", "dotenv", "env", "ini"}
// SupportedRemoteProviders are universally supported remote providers.
var SupportedRemoteProviders = []string{"etcd", "consul", "firestore"}
func OnConfigChange(run func(in fsnotify.Event)) { v.OnConfigChange(run) }
func (v *Viper) OnConfigChange(run func(in fsnotify.Event)) {
v.onConfigChange = run
}
func WatchConfig() { v.WatchConfig() }
func (v *Viper) WatchConfig() {
initWG := sync.WaitGroup{}
initWG.Add(1)
go func() {
watcher, err := newWatcher()
if err != nil {
log.Fatal(err)
}
defer watcher.Close()
// we have to watch the entire directory to pick up renames/atomic saves in a cross-platform way
filename, err := v.getConfigFile()
if err != nil {
log.Printf("error: %v\n", err)
initWG.Done()
return
}
configFile := filepath.Clean(filename)
configDir, _ := filepath.Split(configFile)
realConfigFile, _ := filepath.EvalSymlinks(filename)
eventsWG := sync.WaitGroup{}
eventsWG.Add(1)
go func() {
for {
select {
case event, ok := <-watcher.Events:
if !ok { // 'Events' channel is closed
eventsWG.Done()
return
}
currentConfigFile, _ := filepath.EvalSymlinks(filename)
// we only care about the config file with the following cases:
// 1 - if the config file was modified or created
// 2 - if the real path to the config file changed (eg: k8s ConfigMap replacement)
const writeOrCreateMask = fsnotify.Write | fsnotify.Create
if (filepath.Clean(event.Name) == configFile &&
event.Op&writeOrCreateMask != 0) ||
(currentConfigFile != "" && currentConfigFile != realConfigFile) {
realConfigFile = currentConfigFile
err := v.ReadInConfig()
if err != nil {
log.Printf("error reading config file: %v\n", err)
}
if v.onConfigChange != nil {
v.onConfigChange(event)
}
} else if filepath.Clean(event.Name) == configFile &&
event.Op&fsnotify.Remove&fsnotify.Remove != 0 {
eventsWG.Done()
return
}
case err, ok := <-watcher.Errors:
if ok { // 'Errors' channel is not closed
log.Printf("watcher error: %v\n", err)
}
eventsWG.Done()
return
}
}
}()
watcher.Add(configDir)
initWG.Done() // done initializing the watch in this go routine, so the parent routine can move on...
eventsWG.Wait() // now, wait for event loop to end in this go-routine...
}()
initWG.Wait() // make sure that the go routine above fully ended before returning
}
// SetConfigFile explicitly defines the path, name and extension of the config file.
// Viper will use this and not check any of the config paths.
func SetConfigFile(in string) { v.SetConfigFile(in) }
func (v *Viper) SetConfigFile(in string) {
if in != "" {
v.configFile = in
}
}
// SetEnvPrefix defines a prefix that ENVIRONMENT variables will use.
// E.g. if your prefix is "spf", the env registry will look for env
// variables that start with "SPF_".
func SetEnvPrefix(in string) { v.SetEnvPrefix(in) }
func (v *Viper) SetEnvPrefix(in string) {
if in != "" {
v.envPrefix = in
}
}
func (v *Viper) mergeWithEnvPrefix(in string) string {
if v.envPrefix != "" {
return strings.ToUpper(v.envPrefix + "_" + in)
}
return strings.ToUpper(in)
}
// AllowEmptyEnv tells Viper to consider set,
// but empty environment variables as valid values instead of falling back.
// For backward compatibility reasons this is false by default.
func AllowEmptyEnv(allowEmptyEnv bool) { v.AllowEmptyEnv(allowEmptyEnv) }
func (v *Viper) AllowEmptyEnv(allowEmptyEnv bool) {
v.allowEmptyEnv = allowEmptyEnv
}
// TODO: should getEnv logic be moved into find(). Can generalize the use of
// rewriting keys many things, Ex: Get('someKey') -> some_key
// (camel case to snake case for JSON keys perhaps)
// getEnv is a wrapper around os.Getenv which replaces characters in the original
// key. This allows env vars which have different keys than the config object
// keys.
func (v *Viper) getEnv(key string) (string, bool) {
if v.envKeyReplacer != nil {
key = v.envKeyReplacer.Replace(key)
}
val, ok := os.LookupEnv(key)
return val, ok && (v.allowEmptyEnv || val != "")
}
// ConfigFileUsed returns the file used to populate the config registry.
func ConfigFileUsed() string { return v.ConfigFileUsed() }
func (v *Viper) ConfigFileUsed() string { return v.configFile }
// AddConfigPath adds a path for Viper to search for the config file in.
// Can be called multiple times to define multiple search paths.
func AddConfigPath(in string) { v.AddConfigPath(in) }
func (v *Viper) AddConfigPath(in string) {
if in != "" {
absin := absPathify(in)
jww.INFO.Println("adding", absin, "to paths to search")
if !stringInSlice(absin, v.configPaths) {
v.configPaths = append(v.configPaths, absin)
}
}
}
// AddRemoteProvider adds a remote configuration source.
// Remote Providers are searched in the order they are added.
// provider is a string value: "etcd", "consul" or "firestore" are currently supported.
// endpoint is the url. etcd requires http://ip:port consul requires ip:port
// path is the path in the k/v store to retrieve configuration
// To retrieve a config file called myapp.json from /configs/myapp.json
// you should set path to /configs and set config name (SetConfigName()) to
// "myapp"
func AddRemoteProvider(provider, endpoint, path string) error {
return v.AddRemoteProvider(provider, endpoint, path)
}
func (v *Viper) AddRemoteProvider(provider, endpoint, path string) error {
if !stringInSlice(provider, SupportedRemoteProviders) {
return UnsupportedRemoteProviderError(provider)
}
if provider != "" && endpoint != "" {
jww.INFO.Printf("adding %s:%s to remote provider list", provider, endpoint)
rp := &defaultRemoteProvider{
endpoint: endpoint,
provider: provider,
path: path,
}
if !v.providerPathExists(rp) {
v.remoteProviders = append(v.remoteProviders, rp)
}
}
return nil
}
// AddSecureRemoteProvider adds a remote configuration source.
// Secure Remote Providers are searched in the order they are added.
// provider is a string value: "etcd", "consul" or "firestore" are currently supported.
// endpoint is the url. etcd requires http://ip:port consul requires ip:port
// secretkeyring is the filepath to your openpgp secret keyring. e.g. /etc/secrets/myring.gpg
// path is the path in the k/v store to retrieve configuration
// To retrieve a config file called myapp.json from /configs/myapp.json
// you should set path to /configs and set config name (SetConfigName()) to
// "myapp"
// Secure Remote Providers are implemented with github.com/bketelsen/crypt
func AddSecureRemoteProvider(provider, endpoint, path, secretkeyring string) error {
return v.AddSecureRemoteProvider(provider, endpoint, path, secretkeyring)
}
func (v *Viper) AddSecureRemoteProvider(provider, endpoint, path, secretkeyring string) error {
if !stringInSlice(provider, SupportedRemoteProviders) {
return UnsupportedRemoteProviderError(provider)
}
if provider != "" && endpoint != "" {
jww.INFO.Printf("adding %s:%s to remote provider list", provider, endpoint)
rp := &defaultRemoteProvider{
endpoint: endpoint,
provider: provider,
path: path,
secretKeyring: secretkeyring,
}
if !v.providerPathExists(rp) {
v.remoteProviders = append(v.remoteProviders, rp)
}
}
return nil
}
func (v *Viper) providerPathExists(p *defaultRemoteProvider) bool {
for _, y := range v.remoteProviders {
if reflect.DeepEqual(y, p) {
return true
}
}
return false
}
// searchMap recursively searches for a value for path in source map.
// Returns nil if not found.
// Note: This assumes that the path entries and map keys are lower cased.
func (v *Viper) searchMap(source map[string]interface{}, path []string) interface{} {
if len(path) == 0 {
return source
}
next, ok := source[path[0]]
if ok {
// Fast path
if len(path) == 1 {
return next
}
// Nested case
switch next.(type) {
case map[interface{}]interface{}:
return v.searchMap(cast.ToStringMap(next), path[1:])
case map[string]interface{}:
// Type assertion is safe here since it is only reached
// if the type of `next` is the same as the type being asserted
return v.searchMap(next.(map[string]interface{}), path[1:])
default:
// got a value but nested key expected, return "nil" for not found
return nil
}
}
return nil
}
// searchIndexableWithPathPrefixes recursively searches for a value for path in source map/slice.
//
// While searchMap() considers each path element as a single map key or slice index, this
// function searches for, and prioritizes, merged path elements.
// e.g., if in the source, "foo" is defined with a sub-key "bar", and "foo.bar"
// is also defined, this latter value is returned for path ["foo", "bar"].
//
// This should be useful only at config level (other maps may not contain dots
// in their keys).
//
// Note: This assumes that the path entries and map keys are lower cased.
func (v *Viper) searchIndexableWithPathPrefixes(source interface{}, path []string) interface{} {
if len(path) == 0 {
return source
}
// search for path prefixes, starting from the longest one
for i := len(path); i > 0; i-- {
prefixKey := strings.ToLower(strings.Join(path[0:i], v.keyDelim))
var val interface{}
switch sourceIndexable := source.(type) {
case []interface{}:
val = v.searchSliceWithPathPrefixes(sourceIndexable, prefixKey, i, path)
case map[string]interface{}:
val = v.searchMapWithPathPrefixes(sourceIndexable, prefixKey, i, path)
}
if val != nil {
return val
}
}
// not found
return nil
}
// searchSliceWithPathPrefixes searches for a value for path in sourceSlice
//
// This function is part of the searchIndexableWithPathPrefixes recurring search and
// should not be called directly from functions other than searchIndexableWithPathPrefixes.
func (v *Viper) searchSliceWithPathPrefixes(
sourceSlice []interface{},
prefixKey string,
pathIndex int,
path []string,
) interface{} {
// if the prefixKey is not a number or it is out of bounds of the slice
index, err := strconv.Atoi(prefixKey)
if err != nil || len(sourceSlice) <= index {
return nil
}
next := sourceSlice[index]
// Fast path
if pathIndex == len(path) {
return next
}
switch n := next.(type) {
case map[interface{}]interface{}:
return v.searchIndexableWithPathPrefixes(cast.ToStringMap(n), path[pathIndex:])
case map[string]interface{}, []interface{}:
return v.searchIndexableWithPathPrefixes(n, path[pathIndex:])
default:
// got a value but nested key expected, do nothing and look for next prefix
}
// not found
return nil
}
// searchMapWithPathPrefixes searches for a value for path in sourceMap
//
// This function is part of the searchIndexableWithPathPrefixes recurring search and
// should not be called directly from functions other than searchIndexableWithPathPrefixes.
func (v *Viper) searchMapWithPathPrefixes(
sourceMap map[string]interface{},
prefixKey string,
pathIndex int,
path []string,
) interface{} {
next, ok := sourceMap[prefixKey]
if !ok {
return nil
}
// Fast path
if pathIndex == len(path) {
return next
}
// Nested case
switch n := next.(type) {
case map[interface{}]interface{}:
return v.searchIndexableWithPathPrefixes(cast.ToStringMap(n), path[pathIndex:])
case map[string]interface{}, []interface{}:
return v.searchIndexableWithPathPrefixes(n, path[pathIndex:])
default:
// got a value but nested key expected, do nothing and look for next prefix
}
// not found
return nil
}
// isPathShadowedInDeepMap makes sure the given path is not shadowed somewhere
// on its path in the map.
// e.g., if "foo.bar" has a value in the given map, it “shadows”
// "foo.bar.baz" in a lower-priority map
func (v *Viper) isPathShadowedInDeepMap(path []string, m map[string]interface{}) string {
var parentVal interface{}
for i := 1; i < len(path); i++ {
parentVal = v.searchMap(m, path[0:i])
if parentVal == nil {
// not found, no need to add more path elements
return ""
}
switch parentVal.(type) {
case map[interface{}]interface{}:
continue
case map[string]interface{}:
continue
default:
// parentVal is a regular value which shadows "path"
return strings.Join(path[0:i], v.keyDelim)
}
}
return ""
}
// isPathShadowedInFlatMap makes sure the given path is not shadowed somewhere
// in a sub-path of the map.
// e.g., if "foo.bar" has a value in the given map, it “shadows”
// "foo.bar.baz" in a lower-priority map
func (v *Viper) isPathShadowedInFlatMap(path []string, mi interface{}) string {
// unify input map
var m map[string]interface{}
switch mi.(type) {
case map[string]string, map[string]FlagValue:
m = cast.ToStringMap(mi)
default:
return ""
}
// scan paths
var parentKey string
for i := 1; i < len(path); i++ {
parentKey = strings.Join(path[0:i], v.keyDelim)
if _, ok := m[parentKey]; ok {
return parentKey
}
}
return ""
}
// isPathShadowedInAutoEnv makes sure the given path is not shadowed somewhere
// in the environment, when automatic env is on.
// e.g., if "foo.bar" has a value in the environment, it “shadows”
// "foo.bar.baz" in a lower-priority map
func (v *Viper) isPathShadowedInAutoEnv(path []string) string {
var parentKey string
for i := 1; i < len(path); i++ {
parentKey = strings.Join(path[0:i], v.keyDelim)
if _, ok := v.getEnv(v.mergeWithEnvPrefix(parentKey)); ok {
return parentKey
}
}
return ""
}
// SetTypeByDefaultValue enables or disables the inference of a key value's
// type when the Get function is used based upon a key's default value as
// opposed to the value returned based on the normal fetch logic.
//
// For example, if a key has a default value of []string{} and the same key
// is set via an environment variable to "a b c", a call to the Get function
// would return a string slice for the key if the key's type is inferred by
// the default value and the Get function would return:
//
// []string {"a", "b", "c"}
//
// Otherwise the Get function would return:
//
// "a b c"
func SetTypeByDefaultValue(enable bool) { v.SetTypeByDefaultValue(enable) }
func (v *Viper) SetTypeByDefaultValue(enable bool) {
v.typeByDefValue = enable
}
// GetViper gets the global Viper instance.
func GetViper() *Viper {
return v
}
// Get can retrieve any value given the key to use.
// Get is case-insensitive for a key.
// Get has the behavior of returning the value associated with the first
// place from where it is set. Viper will check in the following order:
// override, flag, env, config file, key/value store, default
//
// Get returns an interface. For a specific value use one of the Get____ methods.
func Get(key string) interface{} { return v.Get(key) }
func (v *Viper) Get(key string) interface{} {
lcaseKey := strings.ToLower(key)
val := v.find(lcaseKey, true)
if val == nil {
return nil
}
if v.typeByDefValue {
// TODO(bep) this branch isn't covered by a single test.
valType := val
path := strings.Split(lcaseKey, v.keyDelim)
defVal := v.searchMap(v.defaults, path)
if defVal != nil {
valType = defVal
}
switch valType.(type) {
case bool:
return cast.ToBool(val)
case string:
return cast.ToString(val)
case int32, int16, int8, int:
return cast.ToInt(val)
case uint:
return cast.ToUint(val)
case uint32:
return cast.ToUint32(val)
case uint64:
return cast.ToUint64(val)
case int64:
return cast.ToInt64(val)
case float64, float32:
return cast.ToFloat64(val)
case time.Time:
return cast.ToTime(val)
case time.Duration:
return cast.ToDuration(val)
case []string:
return cast.ToStringSlice(val)
case []int:
return cast.ToIntSlice(val)
}
}
return val
}
// Sub returns new Viper instance representing a sub tree of this instance.
// Sub is case-insensitive for a key.
func Sub(key string) *Viper { return v.Sub(key) }
func (v *Viper) Sub(key string) *Viper {
subv := New()
data := v.Get(key)
if data == nil {
return nil
}
if reflect.TypeOf(data).Kind() == reflect.Map {
subv.config = cast.ToStringMap(data)
return subv
}
return nil
}
// GetString returns the value associated with the key as a string.
func GetString(key string) string { return v.GetString(key) }
func (v *Viper) GetString(key string) string {
return cast.ToString(v.Get(key))
}
// GetBool returns the value associated with the key as a boolean.
func GetBool(key string) bool { return v.GetBool(key) }
func (v *Viper) GetBool(key string) bool {
return cast.ToBool(v.Get(key))
}
// GetInt returns the value associated with the key as an integer.
func GetInt(key string) int { return v.GetInt(key) }
func (v *Viper) GetInt(key string) int {
return cast.ToInt(v.Get(key))
}
// GetInt32 returns the value associated with the key as an integer.
func GetInt32(key string) int32 { return v.GetInt32(key) }
func (v *Viper) GetInt32(key string) int32 {
return cast.ToInt32(v.Get(key))
}
// GetInt64 returns the value associated with the key as an integer.
func GetInt64(key string) int64 { return v.GetInt64(key) }
func (v *Viper) GetInt64(key string) int64 {
return cast.ToInt64(v.Get(key))
}
// GetUint returns the value associated with the key as an unsigned integer.
func GetUint(key string) uint { return v.GetUint(key) }
func (v *Viper) GetUint(key string) uint {
return cast.ToUint(v.Get(key))
}
// GetUint32 returns the value associated with the key as an unsigned integer.
func GetUint32(key string) uint32 { return v.GetUint32(key) }
func (v *Viper) GetUint32(key string) uint32 {
return cast.ToUint32(v.Get(key))
}
// GetUint64 returns the value associated with the key as an unsigned integer.
func GetUint64(key string) uint64 { return v.GetUint64(key) }
func (v *Viper) GetUint64(key string) uint64 {
return cast.ToUint64(v.Get(key))
}
// GetFloat64 returns the value associated with the key as a float64.
func GetFloat64(key string) float64 { return v.GetFloat64(key) }
func (v *Viper) GetFloat64(key string) float64 {
return cast.ToFloat64(v.Get(key))
}
// GetTime returns the value associated with the key as time.
func GetTime(key string) time.Time { return v.GetTime(key) }
func (v *Viper) GetTime(key string) time.Time {
return cast.ToTime(v.Get(key))
}
// GetDuration returns the value associated with the key as a duration.
func GetDuration(key string) time.Duration { return v.GetDuration(key) }
func (v *Viper) GetDuration(key string) time.Duration {
return cast.ToDuration(v.Get(key))
}
// GetIntSlice returns the value associated with the key as a slice of int values.
func GetIntSlice(key string) []int { return v.GetIntSlice(key) }
func (v *Viper) GetIntSlice(key string) []int {
return cast.ToIntSlice(v.Get(key))
}
// GetStringSlice returns the value associated with the key as a slice of strings.
func GetStringSlice(key string) []string { return v.GetStringSlice(key) }
func (v *Viper) GetStringSlice(key string) []string {
return cast.ToStringSlice(v.Get(key))
}
// GetStringMap returns the value associated with the key as a map of interfaces.
func GetStringMap(key string) map[string]interface{} { return v.GetStringMap(key) }
func (v *Viper) GetStringMap(key string) map[string]interface{} {
return cast.ToStringMap(v.Get(key))
}
// GetStringMapString returns the value associated with the key as a map of strings.
func GetStringMapString(key string) map[string]string { return v.GetStringMapString(key) }
func (v *Viper) GetStringMapString(key string) map[string]string {
return cast.ToStringMapString(v.Get(key))