package schema
//go:generate go-bindata -pkg schema -nometadata data
import (
"fmt"
"strings"
"time"
"github.com/pkg/errors"
"github.com/xeipuuv/gojsonschema"
)
const (
defaultVersion = "1.0"
versionField = "version"
)
type portsFormatChecker struct{}
func (checker portsFormatChecker) IsFormat(input string) bool {
// TODO: implement this
return true
}
type durationFormatChecker struct{}
func (checker durationFormatChecker) IsFormat(input string) bool {
_, err := time.ParseDuration(input)
return err == nil
}
func init() {
gojsonschema.FormatCheckers.Add("expose", portsFormatChecker{})
gojsonschema.FormatCheckers.Add("ports", portsFormatChecker{})
gojsonschema.FormatCheckers.Add("duration", durationFormatChecker{})
}
// Version returns the version of the config, defaulting to version 1.0
func Version(config map[string]interface{}) string {
version, ok := config[versionField]
if !ok {
return defaultVersion
}
return normalizeVersion(fmt.Sprintf("%v", version))
}
func normalizeVersion(version string) string {
switch version {
case "3":
return "3.0"
default:
return version
}
}
// Validate uses the jsonschema to validate the configuration
func Validate(config map[string]interface{}, version string) error {
schemaData, err := Asset(fmt.Sprintf("data/config_schema_v%s.json", version))
if err != nil {
return errors.Errorf("unsupported Compose file version: %s", version)
}
schemaLoader := gojsonschema.NewStringLoader(string(schemaData))
dataLoader := gojsonschema.NewGoLoader(config)
result, err := gojsonschema.Validate(schemaLoader, dataLoader)
if err != nil {
return err
}
if !result.Valid() {
return toError(result)
}
return nil
}
func toError(result *gojsonschema.Result) error {
err := getMostSpecificError(result.Errors())
description := getDescription(err)
return fmt.Errorf("%s %s", err.Field(), description)
}
func getDescription(err gojsonschema.ResultError) string {
if err.Type() == "invalid_type" {
if expectedType, ok := err.Details()["expected"].(string); ok {
return fmt.Sprintf("must be a %s", humanReadableType(expectedType))
}
}
return err.Description()
}
func humanReadableType(definition string) string {
if definition[0:1] == "[" {
allTypes := strings.Split(definition[1:len(definition)-1], ",")
for i, t := range allTypes {
allTypes[i] = humanReadableType(t)
}
return fmt.Sprintf(
"%s or %s",
strings.Join(allTypes[0:len(allTypes)-1], ", "),
allTypes[len(allTypes)-1],
)
}
if definition == "object" {
return "mapping"
}
if definition == "array" {
return "list"
}
return definition
}
func getMostSpecificError(errors []gojsonschema.ResultError) gojsonschema.ResultError {
var mostSpecificError gojsonschema.ResultError
for _, err := range errors {
if mostSpecificError == nil {
mostSpecificError = err
} else if specificity(err) > specificity(mostSpecificError) {
mostSpecificError = err
} else if specificity(err) == specificity(mostSpecificError) {
// Invalid type errors win in a tie-breaker for most specific field name
if err.Type() == "invalid_type" && mostSpecificError.Type() != "invalid_type" {
mostSpecificError = err
}
}
}
return mostSpecificError
}
func specificity(err gojsonschema.ResultError) int {
return len(strings.Split(err.Field(), "."))
}