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compiler.go
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compiler.go
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package jsonschema
import (
"encoding/json"
"fmt"
"io"
"math/big"
"regexp"
"strconv"
"strings"
)
// A Compiler represents a json-schema compiler.
type Compiler struct {
// Draft represents the draft used when '$schema' attribute is missing.
//
// This defaults to latest supported draft (currently 2020-12).
Draft *Draft
resources map[string]*resource
// Extensions is used to register extensions.
extensions map[string]extension
// ExtractAnnotations tells whether schema annotations has to be extracted
// in compiled Schema or not.
ExtractAnnotations bool
// LoadURL loads the document at given absolute URL.
//
// If nil, package global LoadURL is used.
LoadURL func(s string) (io.ReadCloser, error)
// CompileRegex comples given regular expression.
// if nil, golang's regexp implementation is used.
CompileRegex RegexEngine
// Formats can be registered by adding to this map. Key is format name,
// value is function that knows how to validate that format.
Formats map[string]func(interface{}) bool
// AssertFormat for specifications >= draft2019-09.
AssertFormat bool
// Decoders can be registered by adding to this map. Key is encoding name,
// value is function that knows how to decode string in that format.
Decoders map[string]func(string) ([]byte, error)
// MediaTypes can be registered by adding to this map. Key is mediaType name,
// value is function that knows how to validate that mediaType.
MediaTypes map[string]func([]byte) error
// AssertContent for specifications >= draft2019-09.
AssertContent bool
}
// Compile parses json-schema at given url returns, if successful,
// a Schema object that can be used to match against json.
//
// Returned error can be *SchemaError
func Compile(url string) (*Schema, error) {
return NewCompiler().Compile(url)
}
// MustCompile is like Compile but panics if the url cannot be compiled to *Schema.
// It simplifies safe initialization of global variables holding compiled Schemas.
func MustCompile(url string) *Schema {
return NewCompiler().MustCompile(url)
}
// CompileString parses and compiles the given schema with given base url.
func CompileString(url, schema string) (*Schema, error) {
c := NewCompiler()
if err := c.AddResource(url, strings.NewReader(schema)); err != nil {
return nil, err
}
return c.Compile(url)
}
// MustCompileString is like CompileString but panics on error.
// It simplified safe initialization of global variables holding compiled Schema.
func MustCompileString(url, schema string) *Schema {
c := NewCompiler()
if err := c.AddResource(url, strings.NewReader(schema)); err != nil {
panic(err)
}
return c.MustCompile(url)
}
// NewCompiler returns a json-schema Compiler object.
// If '$schema' attribute is missing, it uses the latest draft currently implemented by this library.
// To change this behavior change Compiler.Draft value
func NewCompiler() *Compiler {
return &Compiler{
Draft: latest,
resources: make(map[string]*resource),
Formats: make(map[string]func(interface{}) bool),
Decoders: make(map[string]func(string) ([]byte, error)),
MediaTypes: make(map[string]func([]byte) error),
extensions: make(map[string]extension),
}
}
// AddResource adds in-memory resource to the compiler.
//
// Note that url must not have fragment
func (c *Compiler) AddResource(url string, r io.Reader) error {
doc, err := unmarshal(r)
if err != nil {
return fmt.Errorf("jsonschema: invalid json %s: %v", url, err)
}
return c.AddResourceJSON(url, doc)
}
// AddResourceJSON adds in-memory resource from given json value.
func (c *Compiler) AddResourceJSON(url string, doc interface{}) error {
res, err := newResource(url, doc)
if err != nil {
return err
}
c.resources[res.url] = res
return nil
}
// MustCompile is like Compile but panics if the url cannot be compiled to *Schema.
// It simplifies safe initialization of global variables holding compiled Schemas.
func (c *Compiler) MustCompile(url string) *Schema {
s, err := c.Compile(url)
if err != nil {
panic(fmt.Sprintf("jsonschema: %#v", err))
}
return s
}
// Compile parses json-schema at given url returns, if successful,
// a Schema object that can be used to match against json.
//
// error returned will be of type *SchemaError
func (c *Compiler) Compile(url string) (*Schema, error) {
// make url absolute
u, err := toAbs(url)
if err != nil {
return nil, &SchemaError{url, err}
}
url = u
sch, err := c.compileURL(url, nil, "#")
if err != nil {
err = &SchemaError{url, err}
}
return sch, err
}
func (c *Compiler) loadURL(url string) (io.ReadCloser, error) {
// check in metaschemas
u, meta := strings.CutPrefix(url, "http://json-schema.org/")
if !meta {
u, meta = strings.CutPrefix(url, "https://json-schema.org/")
}
if meta {
f, err := metaFiles.Open("metaschemas/" + u)
if err == nil {
return f, nil
}
}
// load resource
loadURL := LoadURL
if c.LoadURL != nil {
loadURL = c.LoadURL
}
return loadURL(url)
}
func (c *Compiler) findResource(url string) (*resource, error) {
if _, ok := c.resources[url]; !ok {
rdr, err := c.loadURL(url)
if err != nil {
return nil, err
}
defer rdr.Close()
if err := c.AddResource(url, rdr); err != nil {
return nil, err
}
}
r := c.resources[url]
if r.draft != nil {
return r, nil
}
// set draft
r.draft = c.Draft
if m, ok := r.doc.(map[string]interface{}); ok {
if sch, ok := m["$schema"]; ok {
sch, ok := sch.(string)
if !ok {
return nil, fmt.Errorf("jsonschema: invalid $schema in %s", url)
}
if !isURI(sch) {
return nil, fmt.Errorf("jsonschema: $schema must be uri in %s", url)
}
r.draft = findDraft(sch)
if r.draft == nil {
sch, _ := split(sch)
if sch == url {
return nil, fmt.Errorf("jsonschema: unsupported draft in %s", url)
}
mr, err := c.findResource(sch)
if err != nil {
return nil, err
}
r.draft = mr.draft
}
}
}
id, err := r.draft.resolveID(r.url, r.doc)
if err != nil {
r.draft = nil
return nil, err
}
if id != "" {
r.url = id
}
if err := r.fillSubschemas(c, r); err != nil {
r.draft = nil
r.subresources = nil
return nil, err
}
return r, nil
}
func (c *Compiler) compileURL(url string, stack []schemaRef, ptr string) (*Schema, error) {
if c.CompileRegex == nil {
// if url points to a draft, return Draft.meta
if d := findDraft(url); d != nil && d.meta != nil {
return d.meta, nil
}
}
b, f := split(url)
r, err := c.findResource(b)
if err != nil {
return nil, err
}
return c.compileRef(r, stack, ptr, r, f)
}
func (c *Compiler) compileRef(r *resource, stack []schemaRef, refPtr string, res *resource, ref string) (*Schema, error) {
base := r.baseURL(res.floc)
ref, err := resolveURL(base, ref)
if err != nil {
return nil, err
}
u, f := split(ref)
sr := r.findResource(u)
if sr == nil {
// external resource
return c.compileURL(ref, stack, refPtr)
}
// ensure root resource is always compiled first.
// this is required to get schema.meta from root resource
if r.schema == nil {
r.schema = newSchema(r.url, r.floc, r.draft, r.doc)
if _, err := c.compile(r, nil, schemaRef{"#", r.schema, false}, r); err != nil {
r.schema = nil
return nil, err
}
}
sr, err = r.resolveFragment(c, sr, f)
if err != nil {
return nil, err
}
if sr == nil {
return nil, fmt.Errorf("jsonschema: %s not found", ref)
}
if sr.schema != nil {
if err := checkLoop(stack, schemaRef{refPtr, sr.schema, false}); err != nil {
return nil, err
}
return sr.schema, nil
}
sr.schema = newSchema(r.url, sr.floc, r.draft, sr.doc)
sch, err := c.compile(r, stack, schemaRef{refPtr, sr.schema, false}, sr)
if err != nil {
sr.schema = nil
}
return sch, err
}
func (c *Compiler) compileDynamicAnchors(r *resource, res *resource) error {
if r.draft.version < 2020 {
return nil
}
rr := r.listResources(res)
rr = append(rr, res)
for _, sr := range rr {
if m, ok := sr.doc.(map[string]interface{}); ok {
if _, ok := m["$dynamicAnchor"]; ok {
sch, err := c.compileRef(r, nil, "IGNORED", r, sr.floc)
if err != nil {
return err
}
res.schema.dynamicAnchors = append(res.schema.dynamicAnchors, sch)
}
}
}
return nil
}
func (c *Compiler) compile(r *resource, stack []schemaRef, sref schemaRef, res *resource) (*Schema, error) {
if err := c.compileDynamicAnchors(r, res); err != nil {
return nil, err
}
switch v := res.doc.(type) {
case bool:
res.schema.Always = &v
return res.schema, nil
default:
return res.schema, c.compileMap(r, stack, sref, res)
}
}
func (c *Compiler) compileMap(r *resource, stack []schemaRef, sref schemaRef, res *resource) error {
m := res.doc.(map[string]interface{})
if err := checkLoop(stack, sref); err != nil {
return err
}
stack = append(stack, sref)
var s = res.schema
var err error
if r == res { // root schema
if sch, ok := m["$schema"]; ok {
sch := sch.(string)
if d := findDraft(sch); d != nil {
s.meta = d.meta
} else {
if s.meta, err = c.compileRef(r, stack, "$schema", res, sch); err != nil {
return err
}
}
}
}
if ref, ok := m["$ref"]; ok {
s.Ref, err = c.compileRef(r, stack, "$ref", res, ref.(string))
if err != nil {
return err
}
if r.draft.version < 2019 {
// All other properties in a "$ref" object MUST be ignored
return nil
}
}
if r.draft.version >= 2019 {
if r == res { // root schema
if vocab, ok := m["$vocabulary"]; ok {
for url, reqd := range vocab.(map[string]interface{}) {
if reqd, ok := reqd.(bool); ok && !reqd {
continue
}
if !r.draft.isVocab(url) {
return fmt.Errorf("jsonschema: unsupported vocab %q in %s", url, res)
}
s.vocab = append(s.vocab, url)
}
} else {
s.vocab = r.draft.defaultVocab
}
}
if ref, ok := m["$recursiveRef"]; ok {
s.RecursiveRef, err = c.compileRef(r, stack, "$recursiveRef", res, ref.(string))
if err != nil {
return err
}
}
}
if r.draft.version >= 2020 {
if dref, ok := m["$dynamicRef"]; ok {
s.DynamicRef, err = c.compileRef(r, stack, "$dynamicRef", res, dref.(string))
if err != nil {
return err
}
if dref, ok := dref.(string); ok {
_, frag := split(dref)
if frag != "#" && !strings.HasPrefix(frag, "#/") {
// frag is anchor
s.dynamicRefAnchor = frag[1:]
}
}
}
}
loadInt := func(pname string) int {
if num, ok := m[pname]; ok {
i, _ := num.(json.Number).Float64()
return int(i)
}
return -1
}
loadRat := func(pname string) *big.Rat {
if num, ok := m[pname]; ok {
r, _ := new(big.Rat).SetString(string(num.(json.Number)))
return r
}
return nil
}
if r.draft.version < 2019 || r.schema.meta.hasVocab("validation") {
if t, ok := m["type"]; ok {
switch t := t.(type) {
case string:
s.Types = []string{t}
case []interface{}:
s.Types = toStrings(t)
}
}
if e, ok := m["enum"]; ok {
s.Enum = e.([]interface{})
allPrimitives := true
for _, item := range s.Enum {
switch jsonType(item) {
case "object", "array":
allPrimitives = false
}
}
s.enumError = "enum failed"
if allPrimitives {
if len(s.Enum) == 1 {
s.enumError = fmt.Sprintf("value must be %#v", s.Enum[0])
} else {
strEnum := make([]string, len(s.Enum))
for i, item := range s.Enum {
strEnum[i] = fmt.Sprintf("%#v", item)
}
s.enumError = fmt.Sprintf("value must be one of %s", strings.Join(strEnum, ", "))
}
}
}
s.Minimum = loadRat("minimum")
if exclusive, ok := m["exclusiveMinimum"]; ok {
if exclusive, ok := exclusive.(bool); ok {
if exclusive {
s.Minimum, s.ExclusiveMinimum = nil, s.Minimum
}
} else {
s.ExclusiveMinimum = loadRat("exclusiveMinimum")
}
}
s.Maximum = loadRat("maximum")
if exclusive, ok := m["exclusiveMaximum"]; ok {
if exclusive, ok := exclusive.(bool); ok {
if exclusive {
s.Maximum, s.ExclusiveMaximum = nil, s.Maximum
}
} else {
s.ExclusiveMaximum = loadRat("exclusiveMaximum")
}
}
s.MultipleOf = loadRat("multipleOf")
s.MinProperties, s.MaxProperties = loadInt("minProperties"), loadInt("maxProperties")
if req, ok := m["required"]; ok {
s.Required = toStrings(req.([]interface{}))
}
s.MinItems, s.MaxItems = loadInt("minItems"), loadInt("maxItems")
if unique, ok := m["uniqueItems"]; ok {
s.UniqueItems = unique.(bool)
}
s.MinLength, s.MaxLength = loadInt("minLength"), loadInt("maxLength")
if pattern, ok := m["pattern"]; ok {
s.Pattern = c.compileRegex(pattern.(string))
}
if r.draft.version >= 2019 {
s.MinContains, s.MaxContains = loadInt("minContains"), loadInt("maxContains")
if s.MinContains == -1 {
s.MinContains = 1
}
if deps, ok := m["dependentRequired"]; ok {
deps := deps.(map[string]interface{})
s.DependentRequired = make(map[string][]string, len(deps))
for pname, pvalue := range deps {
s.DependentRequired[pname] = toStrings(pvalue.([]interface{}))
}
}
}
}
compile := func(stack []schemaRef, ptr string) (*Schema, error) {
return c.compileRef(r, stack, ptr, res, r.url+res.floc+"/"+ptr)
}
loadSchema := func(pname string, stack []schemaRef) (*Schema, error) {
if _, ok := m[pname]; ok {
return compile(stack, escape(pname))
}
return nil, nil
}
loadSchemas := func(pname string, stack []schemaRef) ([]*Schema, error) {
if pvalue, ok := m[pname]; ok {
pvalue := pvalue.([]interface{})
schemas := make([]*Schema, len(pvalue))
for i := range pvalue {
sch, err := compile(stack, escape(pname)+"/"+strconv.Itoa(i))
if err != nil {
return nil, err
}
schemas[i] = sch
}
return schemas, nil
}
return nil, nil
}
if r.draft.version < 2019 || r.schema.meta.hasVocab("applicator") {
if s.Not, err = loadSchema("not", stack); err != nil {
return err
}
if s.AllOf, err = loadSchemas("allOf", stack); err != nil {
return err
}
if s.AnyOf, err = loadSchemas("anyOf", stack); err != nil {
return err
}
if s.OneOf, err = loadSchemas("oneOf", stack); err != nil {
return err
}
if props, ok := m["properties"]; ok {
props := props.(map[string]interface{})
s.Properties = make(map[string]*Schema, len(props))
for pname := range props {
s.Properties[pname], err = compile(nil, "properties/"+escape(pname))
if err != nil {
return err
}
}
}
if regexProps, ok := m["regexProperties"]; ok {
s.RegexProperties = regexProps.(bool)
if s.RegexProperties {
s.regexPropertiesFormat = c.format("regex")
}
}
if patternProps, ok := m["patternProperties"]; ok {
patternProps := patternProps.(map[string]interface{})
s.PatternProperties = make(map[Regexp]*Schema, len(patternProps))
for pattern := range patternProps {
s.PatternProperties[c.compileRegex(pattern)], err = compile(nil, "patternProperties/"+escape(pattern))
if err != nil {
return err
}
}
}
if additionalProps, ok := m["additionalProperties"]; ok {
switch additionalProps := additionalProps.(type) {
case bool:
s.AdditionalProperties = additionalProps
case map[string]interface{}:
s.AdditionalProperties, err = compile(nil, "additionalProperties")
if err != nil {
return err
}
}
}
if deps, ok := m["dependencies"]; ok {
deps := deps.(map[string]interface{})
s.Dependencies = make(map[string]interface{}, len(deps))
for pname, pvalue := range deps {
switch pvalue := pvalue.(type) {
case []interface{}:
s.Dependencies[pname] = toStrings(pvalue)
default:
s.Dependencies[pname], err = compile(stack, "dependencies/"+escape(pname))
if err != nil {
return err
}
}
}
}
if r.draft.version >= 6 {
if s.PropertyNames, err = loadSchema("propertyNames", nil); err != nil {
return err
}
if s.Contains, err = loadSchema("contains", nil); err != nil {
return err
}
}
if r.draft.version >= 7 {
if m["if"] != nil {
if s.If, err = loadSchema("if", stack); err != nil {
return err
}
if s.Then, err = loadSchema("then", stack); err != nil {
return err
}
if s.Else, err = loadSchema("else", stack); err != nil {
return err
}
}
}
if r.draft.version >= 2019 {
if deps, ok := m["dependentSchemas"]; ok {
deps := deps.(map[string]interface{})
s.DependentSchemas = make(map[string]*Schema, len(deps))
for pname := range deps {
s.DependentSchemas[pname], err = compile(stack, "dependentSchemas/"+escape(pname))
if err != nil {
return err
}
}
}
}
if r.draft.version >= 2020 {
if s.PrefixItems, err = loadSchemas("prefixItems", nil); err != nil {
return err
}
if s.Items2020, err = loadSchema("items", nil); err != nil {
return err
}
} else {
if items, ok := m["items"]; ok {
switch items.(type) {
case []interface{}:
s.Items, err = loadSchemas("items", nil)
if err != nil {
return err
}
if additionalItems, ok := m["additionalItems"]; ok {
switch additionalItems := additionalItems.(type) {
case bool:
s.AdditionalItems = additionalItems
case map[string]interface{}:
s.AdditionalItems, err = compile(nil, "additionalItems")
if err != nil {
return err
}
}
}
default:
s.Items, err = compile(nil, "items")
if err != nil {
return err
}
}
}
}
}
// unevaluatedXXX keywords were in "applicator" vocab in 2019, but moved to new vocab "unevaluated" in 2020
if (r.draft.version == 2019 && r.schema.meta.hasVocab("applicator")) || (r.draft.version >= 2020 && r.schema.meta.hasVocab("unevaluated")) {
if s.UnevaluatedProperties, err = loadSchema("unevaluatedProperties", nil); err != nil {
return err
}
if s.UnevaluatedItems, err = loadSchema("unevaluatedItems", nil); err != nil {
return err
}
if r.draft.version >= 2020 {
// any item in an array that passes validation of the contains schema is considered "evaluated"
s.ContainsEval = true
}
}
if format, ok := m["format"]; ok {
s.Format = format.(string)
if r.draft.version < 2019 || c.AssertFormat || r.schema.meta.hasVocab("format-assertion") {
s.format = c.format(s.Format)
}
}
if c.ExtractAnnotations {
if title, ok := m["title"]; ok {
s.Title = title.(string)
}
if description, ok := m["description"]; ok {
s.Description = description.(string)
}
s.Default = m["default"]
}
if r.draft.version >= 6 {
if c, ok := m["const"]; ok {
s.Constant = []interface{}{c}
}
}
if r.draft.version >= 7 {
if encoding, ok := m["contentEncoding"]; ok {
s.ContentEncoding = encoding.(string)
if decoder, ok := c.Decoders[s.ContentEncoding]; ok {
s.decoder = decoder
} else {
s.decoder = Decoders[s.ContentEncoding]
}
}
if mediaType, ok := m["contentMediaType"]; ok {
s.ContentMediaType = mediaType.(string)
if mediaType, ok := c.MediaTypes[s.ContentMediaType]; ok {
s.mediaType = mediaType
} else {
s.mediaType = MediaTypes[s.ContentMediaType]
}
if s.ContentSchema, err = loadSchema("contentSchema", stack); err != nil {
return err
}
}
if c.ExtractAnnotations {
if comment, ok := m["$comment"]; ok {
s.Comment = comment.(string)
}
if readOnly, ok := m["readOnly"]; ok {
s.ReadOnly = readOnly.(bool)
}
if writeOnly, ok := m["writeOnly"]; ok {
s.WriteOnly = writeOnly.(bool)
}
if examples, ok := m["examples"]; ok {
s.Examples = examples.([]interface{})
}
}
}
if r.draft.version >= 2019 {
if !c.AssertContent {
s.decoder = nil
s.mediaType = nil
s.ContentSchema = nil
}
if c.ExtractAnnotations {
if deprecated, ok := m["deprecated"]; ok {
s.Deprecated = deprecated.(bool)
}
}
}
for name, ext := range c.extensions {
es, err := ext.compiler.Compile(CompilerContext{c, r, stack, res}, m)
if err != nil {
return err
}
if es != nil {
if s.Extensions == nil {
s.Extensions = make(map[string]ExtSchema)
}
s.Extensions[name] = es
}
}
return nil
}
func (c *Compiler) validateSchema(r *resource, v interface{}, vloc string) error {
if strings.HasPrefix(r.url, "http://json-schema.org/") ||
strings.HasPrefix(r.url, "https://json-schema.org/") {
return nil
}
validate := func(meta *Schema) error {
return meta.validateValue(v, vloc)
}
meta := r.draft.meta
if c.CompileRegex != nil {
sch, err := c.Compile(r.draft.URL())
if err != nil {
return err
}
meta = sch
}
if err := validate(meta); err != nil {
return err
}
for _, ext := range c.extensions {
if err := validate(ext.meta); err != nil {
return err
}
}
return nil
}
func (c *Compiler) compileRegex(s string) Regexp {
compileRegex := c.CompileRegex
if compileRegex == nil {
compileRegex = compileGoRegex
}
re, err := compileRegex(s)
if err != nil {
panic("regex Format and compiler.CompileRegex are incompatible")
}
return re
}
func (c *Compiler) format(s string) func(interface{}) bool {
if s == "regex" {
compileRegex := c.CompileRegex
if compileRegex == nil {
compileRegex = compileGoRegex
}
return compileRegex.isValid
}
if format, ok := c.Formats[s]; ok {
return format
} else {
return Formats[s]
}
}
func toStrings(arr []interface{}) []string {
s := make([]string, len(arr))
for i, v := range arr {
s[i] = v.(string)
}
return s
}
// SchemaRef captures schema and the path referring to it.
type schemaRef struct {
path string // relative-json-pointer to schema
schema *Schema // target schema
discard bool // true when scope left
}
func (sr schemaRef) String() string {
return fmt.Sprintf("(%s)%v", sr.path, sr.schema)
}
func checkLoop(stack []schemaRef, sref schemaRef) error {
for _, ref := range stack {
if ref.schema == sref.schema {
return infiniteLoopError(stack, sref)
}
}
return nil
}
func keywordLocation(stack []schemaRef, path string) string {
var loc string
for _, ref := range stack[1:] {
loc += "/" + ref.path
}
if path != "" {
loc = loc + "/" + path
}
return loc
}
// Regexp --
// Regexp is the representation of a compiled regular expression.
// A Regexp is safe for concurrent use by multiple goroutines.
type Regexp interface {
// MatchString reports whether the string s contains any match of the regular expression.
MatchString(s string) bool
// String returns the source text used to compile the regular expression.
String() string
}
type RegexEngine func(s string) (Regexp, error)
func (re RegexEngine) isValid(v interface{}) bool {
s, ok := v.(string)
if !ok {
return true
}
_, err := re(s)
return err == nil
}
func compileGoRegex(s string) (Regexp, error) {
return regexp.Compile(s)
}