/*
Copyright 2022 The Kubernetes Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package generators
import (
"encoding/json"
"errors"
"fmt"
"regexp"
"strconv"
"strings"
"k8s.io/gengo/v2/types"
openapi "k8s.io/kube-openapi/pkg/common"
"k8s.io/kube-openapi/pkg/validation/spec"
)
type CELTag struct {
Rule string `json:"rule,omitempty"`
Message string `json:"message,omitempty"`
MessageExpression string `json:"messageExpression,omitempty"`
OptionalOldSelf *bool `json:"optionalOldSelf,omitempty"`
Reason string `json:"reason,omitempty"`
FieldPath string `json:"fieldPath,omitempty"`
}
func (c *CELTag) Validate() error {
if c == nil || *c == (CELTag{}) {
return fmt.Errorf("empty CEL tag is not allowed")
}
var errs []error
if c.Rule == "" {
errs = append(errs, fmt.Errorf("rule cannot be empty"))
}
if c.Message == "" && c.MessageExpression == "" {
errs = append(errs, fmt.Errorf("message or messageExpression must be set"))
}
if c.Message != "" && c.MessageExpression != "" {
errs = append(errs, fmt.Errorf("message and messageExpression cannot be set at the same time"))
}
if len(errs) > 0 {
return errors.Join(errs...)
}
return nil
}
// commentTags represents the parsed comment tags for a given type. These types are then used to generate schema validations.
// These only include the newer prefixed tags. The older tags are still supported,
// but are not included in this struct. Comment Tags are transformed into a
// *spec.Schema, which is then combined with the older marker comments to produce
// the generated OpenAPI spec.
//
// List of tags not included in this struct:
//
// - +optional
// - +default
// - +listType
// - +listMapKeys
// - +mapType
type commentTags struct {
Nullable *bool `json:"nullable,omitempty"`
Format *string `json:"format,omitempty"`
Maximum *float64 `json:"maximum,omitempty"`
ExclusiveMaximum *bool `json:"exclusiveMaximum,omitempty"`
Minimum *float64 `json:"minimum,omitempty"`
ExclusiveMinimum *bool `json:"exclusiveMinimum,omitempty"`
MaxLength *int64 `json:"maxLength,omitempty"`
MinLength *int64 `json:"minLength,omitempty"`
Pattern *string `json:"pattern,omitempty"`
MaxItems *int64 `json:"maxItems,omitempty"`
MinItems *int64 `json:"minItems,omitempty"`
UniqueItems *bool `json:"uniqueItems,omitempty"`
MultipleOf *float64 `json:"multipleOf,omitempty"`
Enum []interface{} `json:"enum,omitempty"`
MaxProperties *int64 `json:"maxProperties,omitempty"`
MinProperties *int64 `json:"minProperties,omitempty"`
// Nested commentTags for extending the schemas of subfields at point-of-use
// when you cant annotate them directly. Cannot be used to add properties
// or remove validations on the overridden schema.
Items *commentTags `json:"items,omitempty"`
Properties map[string]*commentTags `json:"properties,omitempty"`
AdditionalProperties *commentTags `json:"additionalProperties,omitempty"`
CEL []CELTag `json:"cel,omitempty"`
// Future markers can all be parsed into this centralized struct...
// Optional bool `json:"optional,omitempty"`
// Default any `json:"default,omitempty"`
}
// Returns the schema for the given CommentTags instance.
// This is the final authoritative schema for the comment tags
func (c *commentTags) ValidationSchema() (*spec.Schema, error) {
if c == nil {
return nil, nil
}
isNullable := c.Nullable != nil && *c.Nullable
format := ""
if c.Format != nil {
format = *c.Format
}
isExclusiveMaximum := c.ExclusiveMaximum != nil && *c.ExclusiveMaximum
isExclusiveMinimum := c.ExclusiveMinimum != nil && *c.ExclusiveMinimum
isUniqueItems := c.UniqueItems != nil && *c.UniqueItems
pattern := ""
if c.Pattern != nil {
pattern = *c.Pattern
}
var transformedItems *spec.SchemaOrArray
var transformedProperties map[string]spec.Schema
var transformedAdditionalProperties *spec.SchemaOrBool
if c.Items != nil {
items, err := c.Items.ValidationSchema()
if err != nil {
return nil, fmt.Errorf("failed to transform items: %w", err)
}
transformedItems = &spec.SchemaOrArray{Schema: items}
}
if c.Properties != nil {
properties := make(map[string]spec.Schema)
for key, value := range c.Properties {
property, err := value.ValidationSchema()
if err != nil {
return nil, fmt.Errorf("failed to transform property %q: %w", key, err)
}
properties[key] = *property
}
transformedProperties = properties
}
if c.AdditionalProperties != nil {
additionalProperties, err := c.AdditionalProperties.ValidationSchema()
if err != nil {
return nil, fmt.Errorf("failed to transform additionalProperties: %w", err)
}
transformedAdditionalProperties = &spec.SchemaOrBool{Schema: additionalProperties, Allows: true}
}
res := spec.Schema{
SchemaProps: spec.SchemaProps{
Nullable: isNullable,
Format: format,
Maximum: c.Maximum,
ExclusiveMaximum: isExclusiveMaximum,
Minimum: c.Minimum,
ExclusiveMinimum: isExclusiveMinimum,
MaxLength: c.MaxLength,
MinLength: c.MinLength,
Pattern: pattern,
MaxItems: c.MaxItems,
MinItems: c.MinItems,
UniqueItems: isUniqueItems,
MultipleOf: c.MultipleOf,
Enum: c.Enum,
MaxProperties: c.MaxProperties,
MinProperties: c.MinProperties,
},
}
if len(c.CEL) > 0 {
// Convert the CELTag to a map[string]interface{} via JSON
celTagJSON, err := json.Marshal(c.CEL)
if err != nil {
return nil, fmt.Errorf("failed to marshal CEL tag: %w", err)
}
var celTagMap []interface{}
if err := json.Unmarshal(celTagJSON, &celTagMap); err != nil {
return nil, fmt.Errorf("failed to unmarshal CEL tag: %w", err)
}
res.VendorExtensible.AddExtension("x-kubernetes-validations", celTagMap)
}
// Dont add structural properties directly to this schema. This schema
// is used only for validation.
if transformedItems != nil || len(transformedProperties) > 0 || transformedAdditionalProperties != nil {
res.AllOf = append(res.AllOf, spec.Schema{
SchemaProps: spec.SchemaProps{
Items: transformedItems,
Properties: transformedProperties,
AdditionalProperties: transformedAdditionalProperties,
},
})
}
return &res, nil
}
// validates the parameters in a CommentTags instance. Returns any errors encountered.
func (c commentTags) Validate() error {
var err error
if c.MinLength != nil && *c.MinLength < 0 {
err = errors.Join(err, fmt.Errorf("minLength cannot be negative"))
}
if c.MaxLength != nil && *c.MaxLength < 0 {
err = errors.Join(err, fmt.Errorf("maxLength cannot be negative"))
}
if c.MinItems != nil && *c.MinItems < 0 {
err = errors.Join(err, fmt.Errorf("minItems cannot be negative"))
}
if c.MaxItems != nil && *c.MaxItems < 0 {
err = errors.Join(err, fmt.Errorf("maxItems cannot be negative"))
}
if c.MinProperties != nil && *c.MinProperties < 0 {
err = errors.Join(err, fmt.Errorf("minProperties cannot be negative"))
}
if c.MaxProperties != nil && *c.MaxProperties < 0 {
err = errors.Join(err, fmt.Errorf("maxProperties cannot be negative"))
}
if c.Minimum != nil && c.Maximum != nil && *c.Minimum > *c.Maximum {
err = errors.Join(err, fmt.Errorf("minimum %f is greater than maximum %f", *c.Minimum, *c.Maximum))
}
if (c.ExclusiveMinimum != nil || c.ExclusiveMaximum != nil) && c.Minimum != nil && c.Maximum != nil && *c.Minimum == *c.Maximum {
err = errors.Join(err, fmt.Errorf("exclusiveMinimum/Maximum cannot be set when minimum == maximum"))
}
if c.MinLength != nil && c.MaxLength != nil && *c.MinLength > *c.MaxLength {
err = errors.Join(err, fmt.Errorf("minLength %d is greater than maxLength %d", *c.MinLength, *c.MaxLength))
}
if c.MinItems != nil && c.MaxItems != nil && *c.MinItems > *c.MaxItems {
err = errors.Join(err, fmt.Errorf("minItems %d is greater than maxItems %d", *c.MinItems, *c.MaxItems))
}
if c.MinProperties != nil && c.MaxProperties != nil && *c.MinProperties > *c.MaxProperties {
err = errors.Join(err, fmt.Errorf("minProperties %d is greater than maxProperties %d", *c.MinProperties, *c.MaxProperties))
}
if c.Pattern != nil {
_, e := regexp.Compile(*c.Pattern)
if e != nil {
err = errors.Join(err, fmt.Errorf("invalid pattern %q: %v", *c.Pattern, e))
}
}
if c.MultipleOf != nil && *c.MultipleOf == 0 {
err = errors.Join(err, fmt.Errorf("multipleOf cannot be 0"))
}
for i, celTag := range c.CEL {
celError := celTag.Validate()
if celError == nil {
continue
}
err = errors.Join(err, fmt.Errorf("invalid CEL tag at index %d: %w", i, celError))
}
return err
}
// Performs type-specific validation for CommentTags porameters. Accepts a Type instance and returns any errors encountered during validation.
func (c commentTags) ValidateType(t *types.Type) error {
var err error
resolvedType := resolveAliasAndPtrType(t)
typeString, _ := openapi.OpenAPITypeFormat(resolvedType.String()) // will be empty for complicated types
// Structs and interfaces may dynamically be any type, so we cant validate them
// easily.
if resolvedType.Kind == types.Interface || resolvedType.Kind == types.Struct {
// Skip validation for structs and interfaces which implement custom
// overrides
//
// Only check top-level t type without resolving alias to mirror generator
// behavior. Generator only checks the top level type without resolving
// alias. The `has*Method` functions can be changed to add this behavior in the
// future if needed.
elemT := resolvePtrType(t)
if hasOpenAPIDefinitionMethod(elemT) ||
hasOpenAPIDefinitionMethods(elemT) ||
hasOpenAPIV3DefinitionMethod(elemT) ||
hasOpenAPIV3OneOfMethod(elemT) {
return nil
}
}
isArray := resolvedType.Kind == types.Slice || resolvedType.Kind == types.Array
isMap := resolvedType.Kind == types.Map
isString := typeString == "string"
isInt := typeString == "integer"
isFloat := typeString == "number"
isStruct := resolvedType.Kind == types.Struct
if c.MaxItems != nil && !isArray {
err = errors.Join(err, fmt.Errorf("maxItems can only be used on array types"))
}
if c.MinItems != nil && !isArray {
err = errors.Join(err, fmt.Errorf("minItems can only be used on array types"))
}
if c.UniqueItems != nil && !isArray {
err = errors.Join(err, fmt.Errorf("uniqueItems can only be used on array types"))
}
if c.MaxProperties != nil && !(isMap || isStruct) {
err = errors.Join(err, fmt.Errorf("maxProperties can only be used on map types"))
}
if c.MinProperties != nil && !(isMap || isStruct) {
err = errors.Join(err, fmt.Errorf("minProperties can only be used on map types"))
}
if c.MinLength != nil && !isString {
err = errors.Join(err, fmt.Errorf("minLength can only be used on string types"))
}
if c.MaxLength != nil && !isString {
err = errors.Join(err, fmt.Errorf("maxLength can only be used on string types"))
}
if c.Pattern != nil && !isString {
err = errors.Join(err, fmt.Errorf("pattern can only be used on string types"))
}
if c.Minimum != nil && !isInt && !isFloat {
err = errors.Join(err, fmt.Errorf("minimum can only be used on numeric types"))
}
if c.Maximum != nil && !isInt && !isFloat {
err = errors.Join(err, fmt.Errorf("maximum can only be used on numeric types"))
}
if c.MultipleOf != nil && !isInt && !isFloat {
err = errors.Join(err, fmt.Errorf("multipleOf can only be used on numeric types"))
}
if c.ExclusiveMinimum != nil && !isInt && !isFloat {
err = errors.Join(err, fmt.Errorf("exclusiveMinimum can only be used on numeric types"))
}
if c.ExclusiveMaximum != nil && !isInt && !isFloat {
err = errors.Join(err, fmt.Errorf("exclusiveMaximum can only be used on numeric types"))
}
if c.AdditionalProperties != nil && !isMap {
err = errors.Join(err, fmt.Errorf("additionalProperties can only be used on map types"))
if err == nil {
err = errors.Join(err, c.AdditionalProperties.ValidateType(t))
}
}
if c.Items != nil && !isArray {
err = errors.Join(err, fmt.Errorf("items can only be used on array types"))
if err == nil {
err = errors.Join(err, c.Items.ValidateType(t))
}
}
if c.Properties != nil {
if !isStruct && !isMap {
err = errors.Join(err, fmt.Errorf("properties can only be used on struct types"))
} else if isStruct && err == nil {
for key, tags := range c.Properties {
if member := memberWithJSONName(resolvedType, key); member == nil {
err = errors.Join(err, fmt.Errorf("property used in comment tag %q not found in struct %s", key, resolvedType.String()))
} else if nestedErr := tags.ValidateType(member.Type); nestedErr != nil {
err = errors.Join(err, fmt.Errorf("failed to validate property %q: %w", key, nestedErr))
}
}
}
}
return err
}
func memberWithJSONName(t *types.Type, key string) *types.Member {
for _, member := range t.Members {
tags := getJsonTags(&member)
if len(tags) > 0 && tags[0] == key {
return &member
} else if member.Embedded {
if embeddedMember := memberWithJSONName(member.Type, key); embeddedMember != nil {
return embeddedMember
}
}
}
return nil
}
// Parses the given comments into a CommentTags type. Validates the parsed comment tags, and returns the result.
// Accepts an optional type to validate against, and a prefix to filter out markers not related to validation.
// Accepts a prefix to filter out markers not related to validation.
// Returns any errors encountered while parsing or validating the comment tags.
func ParseCommentTags(t *types.Type, comments []string, prefix string) (*spec.Schema, error) {
markers, err := parseMarkers(comments, prefix)
if err != nil {
return nil, fmt.Errorf("failed to parse marker comments: %w", err)
}
nested, err := nestMarkers(markers)
if err != nil {
return nil, fmt.Errorf("invalid marker comments: %w", err)
}
// Parse the map into a CommentTags type by marshalling and unmarshalling
// as JSON in leiu of an unstructured converter.
out, err := json.Marshal(nested)
if err != nil {
return nil, fmt.Errorf("failed to marshal marker comments: %w", err)
}
var commentTags commentTags
if err = json.Unmarshal(out, &commentTags); err != nil {
return nil, fmt.Errorf("failed to unmarshal marker comments: %w", err)
}
// Validate the parsed comment tags
validationErrors := commentTags.Validate()
if t != nil {
validationErrors = errors.Join(validationErrors, commentTags.ValidateType(t))
}
if validationErrors != nil {
return nil, fmt.Errorf("invalid marker comments: %w", validationErrors)
}
return commentTags.ValidationSchema()
}
var (
allowedKeyCharacterSet = `[:_a-zA-Z0-9\[\]\-]`
valueEmpty = regexp.MustCompile(fmt.Sprintf(`^(%s*)$`, allowedKeyCharacterSet))
valueAssign = regexp.MustCompile(fmt.Sprintf(`^(%s*)=(.*)$`, allowedKeyCharacterSet))
valueRawString = regexp.MustCompile(fmt.Sprintf(`^(%s*)>(.*)$`, allowedKeyCharacterSet))
)
// extractCommentTags parses comments for lines of the form:
//
// 'marker' + "key=value"
//
// or to specify truthy boolean keys:
//
// 'marker' + "key"
//
// Values are optional; "" is the default. A tag can be specified more than
// one time and all values are returned. Returns a map with an entry for
// for each key and a value.
//
// Similar to version from gengo, but this version support only allows one
// value per key (preferring explicit array indices), supports raw strings
// with concatenation, and limits the usable characters allowed in a key
// (for simpler parsing).
//
// Assignments and empty values have the same syntax as from gengo. Raw strings
// have the syntax:
//
// 'marker' + "key>value"
// 'marker' + "key>value"
//
// Successive usages of the same raw string key results in concatenating each
// line with `\n` in between. It is an error to use `=` to assing to a previously
// assigned key
// (in contrast to types.ExtractCommentTags which allows array-typed
// values to be specified using `=`).
func extractCommentTags(marker string, lines []string) (map[string]string, error) {
out := map[string]string{}
// Used to track the the line immediately prior to the one being iterated.
// If there was an invalid or ignored line, these values get reset.
lastKey := ""
lastIndex := -1
lastArrayKey := ""
var lintErrors []error
for _, line := range lines {
line = strings.Trim(line, " ")
// Track the current value of the last vars to use in this loop iteration
// before they are reset for the next iteration.
previousKey := lastKey
previousArrayKey := lastArrayKey
previousIndex := lastIndex
// Make sure last vars gets reset if we `continue`
lastIndex = -1
lastArrayKey = ""
lastKey = ""
if len(line) == 0 {
continue
} else if !strings.HasPrefix(line, marker) {
continue
}
line = strings.TrimPrefix(line, marker)
key := ""
value := ""
if matches := valueAssign.FindStringSubmatch(line); matches != nil {
key = matches[1]
value = matches[2]
// If key exists, throw error.
// Some of the old kube open-api gen marker comments like
// `+listMapKeys` allowed a list to be specified by writing key=value
// multiple times.
//
// This is not longer supported for the prefixed marker comments.
// This is to prevent confusion with the new array syntax which
// supports lists of objects.
//
// The old marker comments like +listMapKeys will remain functional,
// but new markers will not support it.
if _, ok := out[key]; ok {
return nil, fmt.Errorf("cannot have multiple values for key '%v'", key)
}
} else if matches := valueEmpty.FindStringSubmatch(line); matches != nil {
key = matches[1]
value = ""
} else if matches := valueRawString.FindStringSubmatch(line); matches != nil {
toAdd := strings.Trim(string(matches[2]), " ")
key = matches[1]
// First usage as a raw string.
if existing, exists := out[key]; !exists {
// Encode the raw string as JSON to ensure that it is properly escaped.
valueBytes, err := json.Marshal(toAdd)
if err != nil {
return nil, fmt.Errorf("invalid value for key %v: %w", key, err)
}
value = string(valueBytes)
} else if key != previousKey {
// Successive usages of the same key of a raw string must be
// consecutive
return nil, fmt.Errorf("concatenations to key '%s' must be consecutive with its assignment", key)
} else {
// If it is a consecutive repeat usage, concatenate to the
// existing value.
//
// Decode JSON string, append to it, re-encode JSON string.
// Kinda janky but this is a code-generator...
var unmarshalled string
if err := json.Unmarshal([]byte(existing), &unmarshalled); err != nil {
return nil, fmt.Errorf("invalid value for key %v: %w", key, err)
} else {
unmarshalled += "\n" + toAdd
valueBytes, err := json.Marshal(unmarshalled)
if err != nil {
return nil, fmt.Errorf("invalid value for key %v: %w", key, err)
}
value = string(valueBytes)
}
}
} else {
// Comment has the correct prefix, but incorrect syntax, so it is an
// error
return nil, fmt.Errorf("invalid marker comment does not match expected `+key=<json formatted value>` pattern: %v", line)
}
out[key] = value
lastKey = key
// Lint the array subscript for common mistakes. This only lints the last
// array index used, (since we do not have a need for nested arrays yet
// in markers)
if arrayPath, index, hasSubscript, err := extractArraySubscript(key); hasSubscript {
// If index is non-zero, check that that previous line was for the same
// key and either the same or previous index
if err != nil {
lintErrors = append(lintErrors, fmt.Errorf("error parsing %v: expected integer index in key '%v'", line, key))
} else if previousArrayKey != arrayPath && index != 0 {
lintErrors = append(lintErrors, fmt.Errorf("error parsing %v: non-consecutive index %v for key '%v'", line, index, arrayPath))
} else if index != previousIndex+1 && index != previousIndex {
lintErrors = append(lintErrors, fmt.Errorf("error parsing %v: non-consecutive index %v for key '%v'", line, index, arrayPath))
}
lastIndex = index
lastArrayKey = arrayPath
}
}
if len(lintErrors) > 0 {
return nil, errors.Join(lintErrors...)
}
return out, nil
}
// Extracts and parses the given marker comments into a map of key -> value.
// Accepts a prefix to filter out markers not related to validation.
// The prefix is removed from the key in the returned map.
// Empty keys and invalid values will return errors, refs are currently unsupported and will be skipped.
func parseMarkers(markerComments []string, prefix string) (map[string]any, error) {
markers, err := extractCommentTags(prefix, markerComments)
if err != nil {
return nil, err
}
// Parse the values as JSON
result := map[string]any{}
for key, value := range markers {
var unmarshalled interface{}
if len(key) == 0 {
return nil, fmt.Errorf("cannot have empty key for marker comment")
} else if _, ok := parseSymbolReference(value, ""); ok {
// Skip ref markers
continue
} else if len(value) == 0 {
// Empty value means key is implicitly a bool
result[key] = true
} else if err := json.Unmarshal([]byte(value), &unmarshalled); err != nil {
// Not valid JSON, throw error
return nil, fmt.Errorf("failed to parse value for key %v as JSON: %w", key, err)
} else {
// Is is valid JSON, use as a JSON value
result[key] = unmarshalled
}
}
return result, nil
}
// Converts a map of:
//
// "a:b:c": 1
// "a:b:d": 2
// "a:e": 3
// "f": 4
//
// Into:
//
// map[string]any{
// "a": map[string]any{
// "b": map[string]any{
// "c": 1,
// "d": 2,
// },
// "e": 3,
// },
// "f": 4,
// }
//
// Returns a list of joined errors for any invalid keys. See putNestedValue for more details.
func nestMarkers(markers map[string]any) (map[string]any, error) {
nested := make(map[string]any)
var errs []error
for key, value := range markers {
var err error
keys := strings.Split(key, ":")
if err = putNestedValue(nested, keys, value); err != nil {
errs = append(errs, err)
}
}
if len(errs) > 0 {
return nil, errors.Join(errs...)
}
return nested, nil
}
// Recursively puts a value into the given keypath, creating intermediate maps
// and slices as needed. If a key is of the form `foo[bar]`, then bar will be
// treated as an index into the array foo. If bar is not a valid integer, putNestedValue returns an error.
func putNestedValue(m map[string]any, k []string, v any) error {
if len(k) == 0 {
return nil
}
key := k[0]
rest := k[1:]
// Array case
if arrayKeyWithoutSubscript, index, hasSubscript, err := extractArraySubscript(key); err != nil {
return fmt.Errorf("error parsing subscript for key %v: %w", key, err)
} else if hasSubscript {
key = arrayKeyWithoutSubscript
var arrayDestination []any
if existing, ok := m[key]; !ok {
arrayDestination = make([]any, index+1)
} else if existing, ok := existing.([]any); !ok {
// Error case. Existing isn't of correct type. Can happen if
// someone is subscripting a field that was previously not an array
return fmt.Errorf("expected []any at key %v, got %T", key, existing)
} else if index >= len(existing) {
// Ensure array is big enough
arrayDestination = append(existing, make([]any, index-len(existing)+1)...)
} else {
arrayDestination = existing
}
m[key] = arrayDestination
if arrayDestination[index] == nil {
// Doesn't exist case, create the destination.
// Assumes the destination is a map for now. Theoretically could be
// extended to support arrays of arrays, but that's not needed yet.
destination := make(map[string]any)
arrayDestination[index] = destination
if err = putNestedValue(destination, rest, v); err != nil {
return err
}
} else if dst, ok := arrayDestination[index].(map[string]any); ok {
// Already exists case, correct type
if putNestedValue(dst, rest, v); err != nil {
return err
}
} else {
// Already exists, incorrect type. Error
// This shouldn't be possible.
return fmt.Errorf("expected map at %v[%v], got %T", key, index, arrayDestination[index])
}
return nil
} else if len(rest) == 0 {
// Base case. Single key. Just set into destination
m[key] = v
return nil
}
if existing, ok := m[key]; !ok {
destination := make(map[string]any)
m[key] = destination
return putNestedValue(destination, rest, v)
} else if destination, ok := existing.(map[string]any); ok {
return putNestedValue(destination, rest, v)
} else {
// Error case. Existing isn't of correct type. Can happen if prior comment
// referred to value as an error
return fmt.Errorf("expected map[string]any at key %v, got %T", key, existing)
}
}
// extractArraySubscript extracts the left array subscript from a key of
// the form `foo[bar][baz]` -> "bar".
// Returns the key without the subscript, the index, and a bool indicating if
// the key had a subscript.
// If the key has a subscript, but the subscript is not a valid integer, returns an error.
//
// This can be adapted to support multidimensional subscripts probably fairly
// easily by retuning a list of ints
func extractArraySubscript(str string) (string, int, bool, error) {
subscriptIdx := strings.Index(str, "[")
if subscriptIdx == -1 {
return "", -1, false, nil
}
subscript := strings.Split(str[subscriptIdx+1:], "]")[0]
if len(subscript) == 0 {
return "", -1, false, fmt.Errorf("empty subscript not allowed")
}
index, err := strconv.Atoi(subscript)
if err != nil {
return "", -1, false, fmt.Errorf("expected integer index in key %v", str)
} else if index < 0 {
return "", -1, false, fmt.Errorf("subscript '%v' is invalid. index must be positive", subscript)
}
return str[:subscriptIdx], index, true, nil
}