koanf is a library for reading configuration from different sources in different formats in Go applications. It is a cleaner, lighter alternative to spf13/viper with better abstractions and extensibility and far fewer dependencies.
koanf v2 has modules (Providers) for reading configuration from a variety of sources such as files, command line flags, environment variables, Vault, and S3 and for parsing (Parsers) formats such as JSON, YAML, TOML, Hashicorp HCL. It is easy to plug in custom parsers and providers.
All external dependencies in providers and parsers are detatched from the core and can be installed separately as necessary.
# Install the core.
go get -u github.com/knadh/koanf/v2
# Install the necessary Provider(s).
# Available: file, env, posflag, basicflag, confmap, rawbytes,
# structs, fs, s3, appconfig/v2, consul/v2, etcd/v2, vault/v2, parameterstore/v2
# eg: go get -u github.com/knadh/koanf/providers/s3
# eg: go get -u github.com/knadh/koanf/providers/consul/v2
go get -u github.com/knadh/koanf/providers/file
# Install the necessary Parser(s).
# Available: toml, json, yaml, dotenv, hcl, hjson, nestedtext
# go get -u github.com/knadh/koanf/parsers/$parser
go get -u github.com/knadh/koanf/parsers/toml
See the list of all bundled Providers and Parsers.
- Concepts
- Reading config from files
- Watching file for changes
- Reading from command line
- Reading environment variables
- Reading raw bytes
- Reading from maps and structs
- Unmarshalling and marshalling
- Order of merge and key case senstivity
- Custom Providers and Parsers
- Custom merge strategies
- List of installable Providers and Parsers
koanf.Provider
is a generic interface that provides configuration, for example, from files, environment variables, HTTP sources, or anywhere. The configuration can either be raw bytes that a parser can parse, or it can be a nestedmap[string]interface{}
that can be directly loaded.koanf.Parser
is a generic interface that takes raw bytes, parses, and returns a nestedmap[string]interface{}
. For example, JSON and YAML parsers.- Once loaded into koanf, configuration are values queried by a delimited key path syntax. eg:
app.server.port
. Any delimiter can be chosen. - Configuration from multiple sources can be loaded and merged into a koanf instance, for example, load from a file first and override certain values with flags from the command line.
With these two interface implementations, koanf can obtain configuration in any format from any source, parse it, and make it available to an application.
package main
import (
"fmt"
"log"
"github.com/knadh/koanf/v2"
"github.com/knadh/koanf/parsers/json"
"github.com/knadh/koanf/parsers/yaml"
"github.com/knadh/koanf/providers/file"
)
// Global koanf instance. Use "." as the key path delimiter. This can be "/" or any character.
var k = koanf.New(".")
func main() {
// Load JSON config.
if err := k.Load(file.Provider("mock/mock.json"), json.Parser()); err != nil {
log.Fatalf("error loading config: %v", err)
}
// Load YAML config and merge into the previously loaded config (because we can).
k.Load(file.Provider("mock/mock.yml"), yaml.Parser())
fmt.Println("parent's name is = ", k.String("parent1.name"))
fmt.Println("parent's ID is = ", k.Int("parent1.id"))
}
Some providers expose a Watch()
method that makes the provider watch for changes
in configuration and trigger a callback to reload the configuration.
This is not goroutine safe if there are concurrent *Get()
calls happening on the
koanf object while it is doing a Load()
. Such scenarios will need mutex locking.
file, appconfig, vault, consul
providers have a Watch()
method.
package main
import (
"fmt"
"log"
"github.com/knadh/koanf/v2"
"github.com/knadh/koanf/parsers/json"
"github.com/knadh/koanf/parsers/yaml"
"github.com/knadh/koanf/providers/file"
)
// Global koanf instance. Use "." as the key path delimiter. This can be "/" or any character.
var k = koanf.New(".")
func main() {
// Load JSON config.
f := file.Provider("mock/mock.json")
if err := k.Load(f, json.Parser()); err != nil {
log.Fatalf("error loading config: %v", err)
}
// Load YAML config and merge into the previously loaded config (because we can).
k.Load(file.Provider("mock/mock.yml"), yaml.Parser())
fmt.Println("parent's name is = ", k.String("parent1.name"))
fmt.Println("parent's ID is = ", k.Int("parent1.id"))
// Watch the file and get a callback on change. The callback can do whatever,
// like re-load the configuration.
// File provider always returns a nil `event`.
f.Watch(func(event interface{}, err error) {
if err != nil {
log.Printf("watch error: %v", err)
return
}
// Throw away the old config and load a fresh copy.
log.Println("config changed. Reloading ...")
k = koanf.New(".")
k.Load(f, json.Parser())
k.Print()
})
// Block forever (and manually make a change to mock/mock.json) to
// reload the config.
log.Println("waiting forever. Try making a change to mock/mock.json to live reload")
<-make(chan bool)
}
The following example shows the use of posflag.Provider
, a wrapper over the spf13/pflag library, an advanced commandline lib. For Go's built in flag
package, use basicflag.Provider
.
package main
import (
"fmt"
"log"
"os"
"github.com/knadh/koanf/v2"
"github.com/knadh/koanf/parsers/toml"
"github.com/knadh/koanf/providers/file"
"github.com/knadh/koanf/providers/posflag"
flag "github.com/spf13/pflag"
)
// Global koanf instance. Use "." as the key path delimiter. This can be "/" or any character.
var k = koanf.New(".")
func main() {
// Use the POSIX compliant pflag lib instead of Go's flag lib.
f := flag.NewFlagSet("config", flag.ContinueOnError)
f.Usage = func() {
fmt.Println(f.FlagUsages())
os.Exit(0)
}
// Path to one or more config files to load into koanf along with some config params.
f.StringSlice("conf", []string{"mock/mock.toml"}, "path to one or more .toml config files")
f.String("time", "2020-01-01", "a time string")
f.String("type", "xxx", "type of the app")
f.Parse(os.Args[1:])
// Load the config files provided in the commandline.
cFiles, _ := f.GetStringSlice("conf")
for _, c := range cFiles {
if err := k.Load(file.Provider(c), toml.Parser()); err != nil {
log.Fatalf("error loading file: %v", err)
}
}
// "time" and "type" may have been loaded from the config file, but
// they can still be overridden with the values from the command line.
// The bundled posflag.Provider takes a flagset from the spf13/pflag lib.
// Passing the Koanf instance to posflag helps it deal with default command
// line flag values that are not present in conf maps from previously loaded
// providers.
if err := k.Load(posflag.Provider(f, ".", k), nil); err != nil {
log.Fatalf("error loading config: %v", err)
}
fmt.Println("time is = ", k.String("time"))
}
package main
import (
"fmt"
"log"
"strings"
"github.com/knadh/koanf/v2"
"github.com/knadh/koanf/parsers/json"
"github.com/knadh/koanf/providers/env"
"github.com/knadh/koanf/providers/file"
)
// Global koanf instance. Use . as the key path delimiter. This can be / or anything.
var k = koanf.New(".")
func main() {
// Load JSON config.
if err := k.Load(file.Provider("mock/mock.json"), json.Parser()); err != nil {
log.Fatalf("error loading config: %v", err)
}
// Load environment variables and merge into the loaded config.
// "MYVAR" is the prefix to filter the env vars by.
// "." is the delimiter used to represent the key hierarchy in env vars.
// The (optional, or can be nil) function can be used to transform
// the env var names, for instance, to lowercase them.
//
// For example, env vars: MYVAR_TYPE and MYVAR_PARENT1_CHILD1_NAME
// will be merged into the "type" and the nested "parent1.child1.name"
// keys in the config file here as we lowercase the key,
// replace `_` with `.` and strip the MYVAR_ prefix so that
// only "parent1.child1.name" remains.
k.Load(env.Provider("MYVAR_", ".", func(s string) string {
return strings.Replace(strings.ToLower(
strings.TrimPrefix(s, "MYVAR_")), "_", ".", -1)
}), nil)
fmt.Println("name is = ", k.String("parent1.child1.name"))
}
You can also use the env.ProviderWithValue
with a callback that supports mutating both the key and value
to return types other than a string. For example, here, env values separated by spaces are
returned as string slices or arrays. eg: MYVAR_slice=a b c
becomes slice: [a, b, c]
.
k.Load(env.ProviderWithValue("MYVAR_", ".", func(s string, v string) (string, interface{}) {
// Strip out the MYVAR_ prefix and lowercase and get the key while also replacing
// the _ character with . in the key (koanf delimeter).
key := strings.Replace(strings.ToLower(strings.TrimPrefix(s, "MYVAR_")), "_", ".", -1)
// If there is a space in the value, split the value into a slice by the space.
if strings.Contains(v, " ") {
return key, strings.Split(v, " ")
}
// Otherwise, return the plain string.
return key, v
}), nil)
// Load JSON config from s3.
if err := k.Load(s3.Provider(s3.Config{
AccessKey: os.Getenv("AWS_S3_ACCESS_KEY"),
SecretKey: os.Getenv("AWS_S3_SECRET_KEY"),
Region: os.Getenv("AWS_S3_REGION"),
Bucket: os.Getenv("AWS_S3_BUCKET"),
ObjectKey: "dir/config.json",
}), json.Parser()); err != nil {
log.Fatalf("error loading config: %v", err)
}
The bundled rawbytes
Provider can be used to read arbitrary bytes from a source, like a database or an HTTP call.
package main
import (
"fmt"
"github.com/knadh/koanf/v2"
"github.com/knadh/koanf/parsers/json"
"github.com/knadh/koanf/providers/rawbytes"
)
// Global koanf instance. Use . as the key path delimiter. This can be / or anything.
var k = koanf.New(".")
func main() {
b := []byte(`{"type": "rawbytes", "parent1": {"child1": {"type": "rawbytes"}}}`)
k.Load(rawbytes.Provider(b), json.Parser())
fmt.Println("type is = ", k.String("parent1.child1.type"))
}
Parser
s can be used to unmarshal and scan the values in a Koanf instance into a struct based on the field tags, and to marshal a Koanf instance back into serialized bytes, for example, back to JSON or YAML, to write back to files.
package main
import (
"fmt"
"log"
"github.com/knadh/koanf/v2"
"github.com/knadh/koanf/parsers/json"
"github.com/knadh/koanf/providers/file"
)
// Global koanf instance. Use . as the key path delimiter. This can be / or anything.
var (
k = koanf.New(".")
parser = json.Parser()
)
func main() {
// Load JSON config.
if err := k.Load(file.Provider("mock/mock.json"), parser); err != nil {
log.Fatalf("error loading config: %v", err)
}
// Structure to unmarshal nested conf to.
type childStruct struct {
Name string `koanf:"name"`
Type string `koanf:"type"`
Empty map[string]string `koanf:"empty"`
GrandChild struct {
Ids []int `koanf:"ids"`
On bool `koanf:"on"`
} `koanf:"grandchild1"`
}
var out childStruct
// Quick unmarshal.
k.Unmarshal("parent1.child1", &out)
fmt.Println(out)
// Unmarshal with advanced config.
out = childStruct{}
k.UnmarshalWithConf("parent1.child1", &out, koanf.UnmarshalConf{Tag: "koanf"})
fmt.Println(out)
// Marshal the instance back to JSON.
// The paser instance can be anything, eg: json.Paser(), yaml.Parser() etc.
b, _ := k.Marshal(parser)
fmt.Println(string(b))
}
Sometimes it is necessary to unmarshal an assortment of keys from various nested structures into a flat target structure. This is possible with the UnmarshalConf.FlatPaths
flag.
package main
import (
"fmt"
"log"
"github.com/knadh/koanf/v2"
"github.com/knadh/koanf/parsers/json"
"github.com/knadh/koanf/providers/file"
)
// Global koanf instance. Use . as the key path delimiter. This can be / or anything.
var k = koanf.New(".")
func main() {
// Load JSON config.
if err := k.Load(file.Provider("mock/mock.json"), json.Parser()); err != nil {
log.Fatalf("error loading config: %v", err)
}
type rootFlat struct {
Type string `koanf:"type"`
Empty map[string]string `koanf:"empty"`
Parent1Name string `koanf:"parent1.name"`
Parent1ID int `koanf:"parent1.id"`
Parent1Child1Name string `koanf:"parent1.child1.name"`
Parent1Child1Type string `koanf:"parent1.child1.type"`
Parent1Child1Empty map[string]string `koanf:"parent1.child1.empty"`
Parent1Child1Grandchild1IDs []int `koanf:"parent1.child1.grandchild1.ids"`
Parent1Child1Grandchild1On bool `koanf:"parent1.child1.grandchild1.on"`
}
// Unmarshal the whole root with FlatPaths: True.
var o1 rootFlat
k.UnmarshalWithConf("", &o1, koanf.UnmarshalConf{Tag: "koanf", FlatPaths: true})
fmt.Println(o1)
// Unmarshal a child structure of "parent1".
type subFlat struct {
Name string `koanf:"name"`
ID int `koanf:"id"`
Child1Name string `koanf:"child1.name"`
Child1Type string `koanf:"child1.type"`
Child1Empty map[string]string `koanf:"child1.empty"`
Child1Grandchild1IDs []int `koanf:"child1.grandchild1.ids"`
Child1Grandchild1On bool `koanf:"child1.grandchild1.on"`
}
var o2 subFlat
k.UnmarshalWithConf("parent1", &o2, koanf.UnmarshalConf{Tag: "koanf", FlatPaths: true})
fmt.Println(o2)
}
The bundled confmap
provider takes a map[string]interface{}
that can be loaded into a koanf instance.
package main
import (
"fmt"
"log"
"github.com/knadh/koanf/v2"
"github.com/knadh/koanf/providers/confmap"
"github.com/knadh/koanf/providers/file"
"github.com/knadh/koanf/parsers/json"
"github.com/knadh/koanf/parsers/yaml"
)
// Global koanf instance. Use "." as the key path delimiter. This can be "/" or any character.
var k = koanf.New(".")
func main() {
// Load default values using the confmap provider.
// We provide a flat map with the "." delimiter.
// A nested map can be loaded by setting the delimiter to an empty string "".
k.Load(confmap.Provider(map[string]interface{}{
"parent1.name": "Default Name",
"parent3.name": "New name here",
}, "."), nil)
// Load JSON config on top of the default values.
if err := k.Load(file.Provider("mock/mock.json"), json.Parser()); err != nil {
log.Fatalf("error loading config: %v", err)
}
// Load YAML config and merge into the previously loaded config (because we can).
k.Load(file.Provider("mock/mock.yml"), yaml.Parser())
fmt.Println("parent's name is = ", k.String("parent1.name"))
fmt.Println("parent's ID is = ", k.Int("parent1.id"))
}
The bundled structs
provider can be used to read data from a struct to load into a koanf instance.
package main
import (
"fmt"
"github.com/knadh/koanf/v2"
"github.com/knadh/koanf/providers/structs"
)
// Global koanf instance. Use "." as the key path delimiter. This can be "/" or any character.
var k = koanf.New(".")
type parentStruct struct {
Name string `koanf:"name"`
ID int `koanf:"id"`
Child1 childStruct `koanf:"child1"`
}
type childStruct struct {
Name string `koanf:"name"`
Type string `koanf:"type"`
Empty map[string]string `koanf:"empty"`
Grandchild1 grandchildStruct `koanf:"grandchild1"`
}
type grandchildStruct struct {
Ids []int `koanf:"ids"`
On bool `koanf:"on"`
}
type sampleStruct struct {
Type string `koanf:"type"`
Empty map[string]string `koanf:"empty"`
Parent1 parentStruct `koanf:"parent1"`
}
func main() {
// Load default values using the structs provider.
// We provide a struct along with the struct tag `koanf` to the
// provider.
k.Load(structs.Provider(sampleStruct{
Type: "json",
Empty: make(map[string]string),
Parent1: parentStruct{
Name: "parent1",
ID: 1234,
Child1: childStruct{
Name: "child1",
Type: "json",
Empty: make(map[string]string),
Grandchild1: grandchildStruct{
Ids: []int{1, 2, 3},
On: true,
},
},
},
}, "koanf"), nil)
fmt.Printf("name is = `%s`\n", k.String("parent1.child1.name"))
}
The default behavior when you create Koanf this way is: koanf.New(delim)
that the latest loaded configuration will
merge with the previous one.
For example:
first.yml
key: [1,2,3]
second.yml
key: 'string'
When second.yml
is loaded it will override the type of the first.yml
.
If this behavior is not desired, you can merge 'strictly'. In the same scenario, Load
will return an error.
package main
import (
"errors"
"log"
"github.com/knadh/koanf/v2"
"github.com/knadh/koanf/maps"
"github.com/knadh/koanf/parsers/json"
"github.com/knadh/koanf/parsers/yaml"
"github.com/knadh/koanf/providers/file"
)
var conf = koanf.Conf{
Delim: ".",
StrictMerge: true,
}
var k = koanf.NewWithConf(conf)
func main() {
yamlPath := "mock/mock.yml"
if err := k.Load(file.Provider(yamlPath), yaml.Parser()); err != nil {
log.Fatalf("error loading config: %v", err)
}
jsonPath := "mock/mock.json"
if err := k.Load(file.Provider(jsonPath), json.Parser()); err != nil {
log.Fatalf("error loading config: %v", err)
}
}
Note: When merging different extensions, each parser can treat his types differently,
meaning even though you the load same types there is a probability that it will fail with StrictMerge: true
.
For example: merging JSON and YAML will most likely fail because JSON treats integers as float64 and YAML treats them as integers.
- Config keys are case-sensitive in koanf. For example,
app.server.port
andAPP.SERVER.port
are not the same. - koanf does not impose any ordering on loading config from various providers. Every successive
Load()
orMerge()
merges new config into the existing config. That is, it is possible to load environment variables first, then files on top of it, and then command line variables on top of it, or any such order.
A Provider returns a nested map[string]interface{}
config that can be loaded directly into koanf with koanf.Load()
or it can return raw bytes that can be parsed with a Parser (again, loaded using koanf.Load()
. Writing Providers and Parsers are easy. See the bundled implementations in the providers and parsers directories.
By default, when merging two config sources using Load()
, koanf recursively merges keys of nested maps (map[string]interface{}
),
while static values are overwritten (slices, strings, etc). This behaviour can be changed by providing a custom merge function with the WithMergeFunc
option.
package main
import (
"errors"
"log"
"github.com/knadh/koanf/v2"
"github.com/knadh/koanf/maps"
"github.com/knadh/koanf/parsers/json"
"github.com/knadh/koanf/parsers/yaml"
"github.com/knadh/koanf/providers/file"
)
var conf = koanf.Conf{
Delim: ".",
StrictMerge: true,
}
var k = koanf.NewWithConf(conf)
func main() {
yamlPath := "mock/mock.yml"
if err := k.Load(file.Provider(yamlPath), yaml.Parser()); err != nil {
log.Fatalf("error loading config: %v", err)
}
jsonPath := "mock/mock.json"
if err := k.Load(file.Provider(jsonPath), json.Parser(), koanf.WithMergeFunc(func(src, dest map[string]interface{}) error {
// Your custom logic, copying values from src into dst
return nil
})); err != nil {
log.Fatalf("error loading config: %v", err)
}
}
See the full API documentation of all available methods at https://pkg.go.dev/github.com/knadh/koanf/v2#section-documentation
Install with go get -u github.com/knadh/koanf/providers/$provider
Package | Provider | Description |
---|---|---|
file | file.Provider(filepath string) |
Reads a file and returns the raw bytes to be parsed. |
fs | fs.Provider(f fs.FS, filepath string) |
(Experimental) Reads a file from fs.FS and returns the raw bytes to be parsed. The provider requires go v1.16 or higher. |
basicflag | basicflag.Provider(f *flag.FlagSet, delim string) |
Takes an stdlib flag.FlagSet |
posflag | posflag.Provider(f *pflag.FlagSet, delim string) |
Takes an spf13/pflag.FlagSet (advanced POSIX compatible flags with multiple types) and provides a nested config map based on delim. |
env | env.Provider(prefix, delim string, f func(s string) string) |
Takes an optional prefix to filter env variables by, an optional function that takes and returns a string to transform env variables, and returns a nested config map based on delim. |
confmap | confmap.Provider(mp map[string]interface{}, delim string) |
Takes a premade map[string]interface{} conf map. If delim is provided, the keys are assumed to be flattened, thus unflattened using delim. |
structs | structs.Provider(s interface{}, tag string) |
Takes a struct and struct tag. |
s3 | s3.Provider(s3.S3Config{}) |
Takes a s3 config struct. |
rawbytes | rawbytes.Provider(b []byte) |
Takes a raw []byte slice to be parsed with a koanf.Parser |
vault/v2 | vault.Provider(vault.Config{}) |
Hashicorp Vault provider |
appconfig/v2 | vault.AppConfig(appconfig.Config{}) |
AWS AppConfig provider |
etcd/v2 | etcd.Provider(etcd.Config{}) |
CNCF etcd provider |
consul/v2 | consul.Provider(consul.Config{}) |
Hashicorp Consul provider |
parameterstore/v2 | parameterstore.Provider(parameterstore.Config{}) |
AWS Systems Manager Parameter Store provider |
Install with go get -u github.com/knadh/koanf/parsers/$parser
Package | Parser | Description |
---|---|---|
json | json.Parser() |
Parses JSON bytes into a nested map |
yaml | yaml.Parser() |
Parses YAML bytes into a nested map |
toml | toml.Parser() |
Parses TOML bytes into a nested map |
dotenv | dotenv.Parser() |
Parses DotEnv bytes into a flat map |
hcl | hcl.Parser(flattenSlices bool) |
Parses Hashicorp HCL bytes into a nested map. flattenSlices is recommended to be set to true. Read more. |
nestedtext | nestedtext.Parser() |
Parses NestedText bytes into a flat map |
hjson | hjson.Parser() |
Parses HJSON bytes into a nested map |
|
Package | Provider | Description |
---|---|---|
github.com/defensestation/koanf/providers/secretsmanager | vault.SecretsMananger(secretsmanager.Config{}, f func(s string) string) |
AWS Secrets Manager provider, takes map or string as a value from store |
github.com/defensestation/koanf/providers/parameterstore | vault.ParameterStore(parameterstore.Config{}, f func(s string) string) |
AWS ParameterStore provider, an optional function that takes and returns a string to transform env variables |
koanf is a lightweight alternative to the popular spf13/viper. It was written as a result of multiple stumbling blocks encountered with some of viper's fundamental flaws.
- viper breaks JSON, YAML, TOML, HCL language specs by forcibly lowercasing keys.
- Significantly bloats build sizes.
- Tightly couples config parsing with file extensions.
- Has poor semantics and abstractions. Commandline, env, file etc. and various parses are hardcoded in the core. There are no primitives that can be extended.
- Pulls a large number of third party dependencies into the core package. For instance, even if you do not use YAML or flags, the dependencies are still pulled as a result of the coupling.
- Imposes arbitrary ordering conventions (eg: flag -> env -> config etc.)
Get()
returns references to slices and maps. Mutations made outside change the underlying values inside the conf map.- Does non-idiomatic things such as throwing away O(1) on flat maps.
- Viper treats keys that contain an empty map (eg:
my_key: {}
) as if they were not set (ie:IsSet("my_key") == false
). - There are a large number of open issues.