"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.CodeGen = exports.Name = exports.nil = exports.stringify = exports.str = exports._ = exports.KeywordCxt = void 0; var validate_1 = require("./compile/validate"); Object.defineProperty(exports, "KeywordCxt", { enumerable: true, get: function () { return validate_1.KeywordCxt; } }); var codegen_1 = require("./compile/codegen"); Object.defineProperty(exports, "_", { enumerable: true, get: function () { return codegen_1._; } }); Object.defineProperty(exports, "str", { enumerable: true, get: function () { return codegen_1.str; } }); Object.defineProperty(exports, "stringify", { enumerable: true, get: function () { return codegen_1.stringify; } }); Object.defineProperty(exports, "nil", { enumerable: true, get: function () { return codegen_1.nil; } }); Object.defineProperty(exports, "Name", { enumerable: true, get: function () { return codegen_1.Name; } }); Object.defineProperty(exports, "CodeGen", { enumerable: true, get: function () { return codegen_1.CodeGen; } }); const validation_error_1 = require("./runtime/validation_error"); const ref_error_1 = require("./compile/ref_error"); const rules_1 = require("./compile/rules"); const compile_1 = require("./compile"); const codegen_2 = require("./compile/codegen"); const resolve_1 = require("./compile/resolve"); const dataType_1 = require("./compile/validate/dataType"); const util_1 = require("./compile/util"); const $dataRefSchema = require("./refs/data.json"); const uri_1 = require("./runtime/uri"); const defaultRegExp = (str, flags) => new RegExp(str, flags); defaultRegExp.code = "new RegExp"; const META_IGNORE_OPTIONS = ["removeAdditional", "useDefaults", "coerceTypes"]; const EXT_SCOPE_NAMES = new Set([ "validate", "serialize", "parse", "wrapper", "root", "schema", "keyword", "pattern", "formats", "validate$data", "func", "obj", "Error", ]); const removedOptions = { errorDataPath: "", format: "`validateFormats: false` can be used instead.", nullable: '"nullable" keyword is supported by default.', jsonPointers: "Deprecated jsPropertySyntax can be used instead.", extendRefs: "Deprecated ignoreKeywordsWithRef can be used instead.", missingRefs: "Pass empty schema with $id that should be ignored to ajv.addSchema.", processCode: "Use option `code: {process: (code, schemaEnv: object) => string}`", sourceCode: "Use option `code: {source: true}`", strictDefaults: "It is default now, see option `strict`.", strictKeywords: "It is default now, see option `strict`.", uniqueItems: '"uniqueItems" keyword is always validated.', unknownFormats: "Disable strict mode or pass `true` to `ajv.addFormat` (or `formats` option).", cache: "Map is used as cache, schema object as key.", serialize: "Map is used as cache, schema object as key.", ajvErrors: "It is default now.", }; const deprecatedOptions = { ignoreKeywordsWithRef: "", jsPropertySyntax: "", unicode: '"minLength"/"maxLength" account for unicode characters by default.', }; const MAX_EXPRESSION = 200; // eslint-disable-next-line complexity function requiredOptions(o) { var _a, _b, _c, _d, _e, _f, _g, _h, _j, _k, _l, _m, _o, _p, _q, _r, _s, _t, _u, _v, _w, _x, _y, _z, _0; const s = o.strict; const _optz = (_a = o.code) === null || _a === void 0 ? void 0 : _a.optimize; const optimize = _optz === true || _optz === undefined ? 1 : _optz || 0; const regExp = (_c = (_b = o.code) === null || _b === void 0 ? void 0 : _b.regExp) !== null && _c !== void 0 ? _c : defaultRegExp; const uriResolver = (_d = o.uriResolver) !== null && _d !== void 0 ? _d : uri_1.default; return { strictSchema: (_f = (_e = o.strictSchema) !== null && _e !== void 0 ? _e : s) !== null && _f !== void 0 ? _f : true, strictNumbers: (_h = (_g = o.strictNumbers) !== null && _g !== void 0 ? _g : s) !== null && _h !== void 0 ? _h : true, strictTypes: (_k = (_j = o.strictTypes) !== null && _j !== void 0 ? _j : s) !== null && _k !== void 0 ? _k : "log", strictTuples: (_m = (_l = o.strictTuples) !== null && _l !== void 0 ? _l : s) !== null && _m !== void 0 ? _m : "log", strictRequired: (_p = (_o = o.strictRequired) !== null && _o !== void 0 ? _o : s) !== null && _p !== void 0 ? _p : false, code: o.code ? { ...o.code, optimize, regExp } : { optimize, regExp }, loopRequired: (_q = o.loopRequired) !== null && _q !== void 0 ? _q : MAX_EXPRESSION, loopEnum: (_r = o.loopEnum) !== null && _r !== void 0 ? _r : MAX_EXPRESSION, meta: (_s = o.meta) !== null && _s !== void 0 ? _s : true, messages: (_t = o.messages) !== null && _t !== void 0 ? _t : true, inlineRefs: (_u = o.inlineRefs) !== null && _u !== void 0 ? _u : true, schemaId: (_v = o.schemaId) !== null && _v !== void 0 ? _v : "$id", addUsedSchema: (_w = o.addUsedSchema) !== null && _w !== void 0 ? _w : true, validateSchema: (_x = o.validateSchema) !== null && _x !== void 0 ? _x : true, validateFormats: (_y = o.validateFormats) !== null && _y !== void 0 ? _y : true, unicodeRegExp: (_z = o.unicodeRegExp) !== null && _z !== void 0 ? _z : true, int32range: (_0 = o.int32range) !== null && _0 !== void 0 ? _0 : true, uriResolver: uriResolver, }; } class Ajv { constructor(opts = {}) { this.schemas = {}; this.refs = {}; this.formats = {}; this._compilations = new Set(); this._loading = {}; this._cache = new Map(); opts = this.opts = { ...opts, ...requiredOptions(opts) }; const { es5, lines } = this.opts.code; this.scope = new codegen_2.ValueScope({ scope: {}, prefixes: EXT_SCOPE_NAMES, es5, lines }); this.logger = getLogger(opts.logger); const formatOpt = opts.validateFormats; opts.validateFormats = false; this.RULES = (0, rules_1.getRules)(); checkOptions.call(this, removedOptions, opts, "NOT SUPPORTED"); checkOptions.call(this, deprecatedOptions, opts, "DEPRECATED", "warn"); this._metaOpts = getMetaSchemaOptions.call(this); if (opts.formats) addInitialFormats.call(this); this._addVocabularies(); this._addDefaultMetaSchema(); if (opts.keywords) addInitialKeywords.call(this, opts.keywords); if (typeof opts.meta == "object") this.addMetaSchema(opts.meta); addInitialSchemas.call(this); opts.validateFormats = formatOpt; } _addVocabularies() { this.addKeyword("$async"); } _addDefaultMetaSchema() { const { $data, meta, schemaId } = this.opts; let _dataRefSchema = $dataRefSchema; if (schemaId === "id") { _dataRefSchema = { ...$dataRefSchema }; _dataRefSchema.id = _dataRefSchema.$id; delete _dataRefSchema.$id; } if (meta && $data) this.addMetaSchema(_dataRefSchema, _dataRefSchema[schemaId], false); } defaultMeta() { const { meta, schemaId } = this.opts; return (this.opts.defaultMeta = typeof meta == "object" ? meta[schemaId] || meta : undefined); } validate(schemaKeyRef, // key, ref or schema object data // to be validated ) { let v; if (typeof schemaKeyRef == "string") { v = this.getSchema(schemaKeyRef); if (!v) throw new Error(`no schema with key or ref "${schemaKeyRef}"`); } else { v = this.compile(schemaKeyRef); } const valid = v(data); if (!("$async" in v)) this.errors = v.errors; return valid; } compile(schema, _meta) { const sch = this._addSchema(schema, _meta); return (sch.validate || this._compileSchemaEnv(sch)); } compileAsync(schema, meta) { if (typeof this.opts.loadSchema != "function") { throw new Error("options.loadSchema should be a function"); } const { loadSchema } = this.opts; return runCompileAsync.call(this, schema, meta); async function runCompileAsync(_schema, _meta) { await loadMetaSchema.call(this, _schema.$schema); const sch = this._addSchema(_schema, _meta); return sch.validate || _compileAsync.call(this, sch); } async function loadMetaSchema($ref) { if ($ref && !this.getSchema($ref)) { await runCompileAsync.call(this, { $ref }, true); } } async function _compileAsync(sch) { try { return this._compileSchemaEnv(sch); } catch (e) { if (!(e instanceof ref_error_1.default)) throw e; checkLoaded.call(this, e); await loadMissingSchema.call(this, e.missingSchema); return _compileAsync.call(this, sch); } } function checkLoaded({ missingSchema: ref, missingRef }) { if (this.refs[ref]) { throw new Error(`AnySchema ${ref} is loaded but ${missingRef} cannot be resolved`); } } async function loadMissingSchema(ref) { const _schema = await _loadSchema.call(this, ref); if (!this.refs[ref]) await loadMetaSchema.call(this, _schema.$schema); if (!this.refs[ref]) this.addSchema(_schema, ref, meta); } async function _loadSchema(ref) { const p = this._loading[ref]; if (p) return p; try { return await (this._loading[ref] = loadSchema(ref)); } finally { delete this._loading[ref]; } } } // Adds schema to the instance addSchema(schema, // If array is passed, `key` will be ignored key, // Optional schema key. Can be passed to `validate` method instead of schema object or id/ref. One schema per instance can have empty `id` and `key`. _meta, // true if schema is a meta-schema. Used internally, addMetaSchema should be used instead. _validateSchema = this.opts.validateSchema // false to skip schema validation. Used internally, option validateSchema should be used instead. ) { if (Array.isArray(schema)) { for (const sch of schema) this.addSchema(sch, undefined, _meta, _validateSchema); return this; } let id; if (typeof schema === "object") { const { schemaId } = this.opts; id = schema[schemaId]; if (id !== undefined && typeof id != "string") { throw new Error(`schema ${schemaId} must be string`); } } key = (0, resolve_1.normalizeId)(key || id); this._checkUnique(key); this.schemas[key] = this._addSchema(schema, _meta, key, _validateSchema, true); return this; } // Add schema that will be used to validate other schemas // options in META_IGNORE_OPTIONS are alway set to false addMetaSchema(schema, key, // schema key _validateSchema = this.opts.validateSchema // false to skip schema validation, can be used to override validateSchema option for meta-schema ) { this.addSchema(schema, key, true, _validateSchema); return this; } // Validate schema against its meta-schema validateSchema(schema, throwOrLogError) { if (typeof schema == "boolean") return true; let $schema; $schema = schema.$schema; if ($schema !== undefined && typeof $schema != "string") { throw new Error("$schema must be a string"); } $schema = $schema || this.opts.defaultMeta || this.defaultMeta(); if (!$schema) { this.logger.warn("meta-schema not available"); this.errors = null; return true; } const valid = this.validate($schema, schema); if (!valid && throwOrLogError) { const message = "schema is invalid: " + this.errorsText(); if (this.opts.validateSchema === "log") this.logger.error(message); else throw new Error(message); } return valid; } // Get compiled schema by `key` or `ref`. // (`key` that was passed to `addSchema` or full schema reference - `schema.$id` or resolved id) getSchema(keyRef) { let sch; while (typeof (sch = getSchEnv.call(this, keyRef)) == "string") keyRef = sch; if (sch === undefined) { const { schemaId } = this.opts; const root = new compile_1.SchemaEnv({ schema: {}, schemaId }); sch = compile_1.resolveSchema.call(this, root, keyRef); if (!sch) return; this.refs[keyRef] = sch; } return (sch.validate || this._compileSchemaEnv(sch)); } // Remove cached schema(s). // If no parameter is passed all schemas but meta-schemas are removed. // If RegExp is passed all schemas with key/id matching pattern but meta-schemas are removed. // Even if schema is referenced by other schemas it still can be removed as other schemas have local references. removeSchema(schemaKeyRef) { if (schemaKeyRef instanceof RegExp) { this._removeAllSchemas(this.schemas, schemaKeyRef); this._removeAllSchemas(this.refs, schemaKeyRef); return this; } switch (typeof schemaKeyRef) { case "undefined": this._removeAllSchemas(this.schemas); this._removeAllSchemas(this.refs); this._cache.clear(); return this; case "string": { const sch = getSchEnv.call(this, schemaKeyRef); if (typeof sch == "object") this._cache.delete(sch.schema); delete this.schemas[schemaKeyRef]; delete this.refs[schemaKeyRef]; return this; } case "object": { const cacheKey = schemaKeyRef; this._cache.delete(cacheKey); let id = schemaKeyRef[this.opts.schemaId]; if (id) { id = (0, resolve_1.normalizeId)(id); delete this.schemas[id]; delete this.refs[id]; } return this; } default: throw new Error("ajv.removeSchema: invalid parameter"); } } // add "vocabulary" - a collection of keywords addVocabulary(definitions) { for (const def of definitions) this.addKeyword(def); return this; } addKeyword(kwdOrDef, def // deprecated ) { let keyword; if (typeof kwdOrDef == "string") { keyword = kwdOrDef; if (typeof def == "object") { this.logger.warn("these parameters are deprecated, see docs for addKeyword"); def.keyword = keyword; } } else if (typeof kwdOrDef == "object" && def === undefined) { def = kwdOrDef; keyword = def.keyword; if (Array.isArray(keyword) && !keyword.length) { throw new Error("addKeywords: keyword must be string or non-empty array"); } } else { throw new Error("invalid addKeywords parameters"); } checkKeyword.call(this, keyword, def); if (!def) { (0, util_1.eachItem)(keyword, (kwd) => addRule.call(this, kwd)); return this; } keywordMetaschema.call(this, def); const definition = { ...def, type: (0, dataType_1.getJSONTypes)(def.type), schemaType: (0, dataType_1.getJSONTypes)(def.schemaType), }; (0, util_1.eachItem)(keyword, definition.type.length === 0 ? (k) => addRule.call(this, k, definition) : (k) => definition.type.forEach((t) => addRule.call(this, k, definition, t))); return this; } getKeyword(keyword) { const rule = this.RULES.all[keyword]; return typeof rule == "object" ? rule.definition : !!rule; } // Remove keyword removeKeyword(keyword) { // TODO return type should be Ajv const { RULES } = this; delete RULES.keywords[keyword]; delete RULES.all[keyword]; for (const group of RULES.rules) { const i = group.rules.findIndex((rule) => rule.keyword === keyword); if (i >= 0) group.rules.splice(i, 1); } return this; } // Add format addFormat(name, format) { if (typeof format == "string") format = new RegExp(format); this.formats[name] = format; return this; } errorsText(errors = this.errors, // optional array of validation errors { separator = ", ", dataVar = "data" } = {} // optional options with properties `separator` and `dataVar` ) { if (!errors || errors.length === 0) return "No errors"; return errors .map((e) => `${dataVar}${e.instancePath} ${e.message}`) .reduce((text, msg) => text + separator + msg); } $dataMetaSchema(metaSchema, keywordsJsonPointers) { const rules = this.RULES.all; metaSchema = JSON.parse(JSON.stringify(metaSchema)); for (const jsonPointer of keywordsJsonPointers) { const segments = jsonPointer.split("/").slice(1); // first segment is an empty string let keywords = metaSchema; for (const seg of segments) keywords = keywords[seg]; for (const key in rules) { const rule = rules[key]; if (typeof rule != "object") continue; const { $data } = rule.definition; const schema = keywords[key]; if ($data && schema) keywords[key] = schemaOrData(schema); } } return metaSchema; } _removeAllSchemas(schemas, regex) { for (const keyRef in schemas) { const sch = schemas[keyRef]; if (!regex || regex.test(keyRef)) { if (typeof sch == "string") { delete schemas[keyRef]; } else if (sch && !sch.meta) { this._cache.delete(sch.schema); delete schemas[keyRef]; } } } } _addSchema(schema, meta, baseId, validateSchema = this.opts.validateSchema, addSchema = this.opts.addUsedSchema) { let id; const { schemaId } = this.opts; if (typeof schema == "object") { id = schema[schemaId]; } else { if (this.opts.jtd) throw new Error("schema must be object"); else if (typeof schema != "boolean") throw new Error("schema must be object or boolean"); } let sch = this._cache.get(schema); if (sch !== undefined) return sch; baseId = (0, resolve_1.normalizeId)(id || baseId); const localRefs = resolve_1.getSchemaRefs.call(this, schema, baseId); sch = new compile_1.SchemaEnv({ schema, schemaId, meta, baseId, localRefs }); this._cache.set(sch.schema, sch); if (addSchema && !baseId.startsWith("#")) { // TODO atm it is allowed to overwrite schemas without id (instead of not adding them) if (baseId) this._checkUnique(baseId); this.refs[baseId] = sch; } if (validateSchema) this.validateSchema(schema, true); return sch; } _checkUnique(id) { if (this.schemas[id] || this.refs[id]) { throw new Error(`schema with key or id "${id}" already exists`); } } _compileSchemaEnv(sch) { if (sch.meta) this._compileMetaSchema(sch); else compile_1.compileSchema.call(this, sch); /* istanbul ignore if */ if (!sch.validate) throw new Error("ajv implementation error"); return sch.validate; } _compileMetaSchema(sch) { const currentOpts = this.opts; this.opts = this._metaOpts; try { compile_1.compileSchema.call(this, sch); } finally { this.opts = currentOpts; } } } exports.default = Ajv; Ajv.ValidationError = validation_error_1.default; Ajv.MissingRefError = ref_error_1.default; function checkOptions(checkOpts, options, msg, log = "error") { for (const key in checkOpts) { const opt = key; if (opt in options) this.logger[log](`${msg}: option ${key}. ${checkOpts[opt]}`); } } function getSchEnv(keyRef) { keyRef = (0, resolve_1.normalizeId)(keyRef); // TODO tests fail without this line return this.schemas[keyRef] || this.refs[keyRef]; } function addInitialSchemas() { const optsSchemas = this.opts.schemas; if (!optsSchemas) return; if (Array.isArray(optsSchemas)) this.addSchema(optsSchemas); else for (const key in optsSchemas) this.addSchema(optsSchemas[key], key); } function addInitialFormats() { for (const name in this.opts.formats) { const format = this.opts.formats[name]; if (format) this.addFormat(name, format); } } function addInitialKeywords(defs) { if (Array.isArray(defs)) { this.addVocabulary(defs); return; } this.logger.warn("keywords option as map is deprecated, pass array"); for (const keyword in defs) { const def = defs[keyword]; if (!def.keyword) def.keyword = keyword; this.addKeyword(def); } } function getMetaSchemaOptions() { const metaOpts = { ...this.opts }; for (const opt of META_IGNORE_OPTIONS) delete metaOpts[opt]; return metaOpts; } const noLogs = { log() { }, warn() { }, error() { } }; function getLogger(logger) { if (logger === false) return noLogs; if (logger === undefined) return console; if (logger.log && logger.warn && logger.error) return logger; throw new Error("logger must implement log, warn and error methods"); } const KEYWORD_NAME = /^[a-z_$][a-z0-9_$:-]*$/i; function checkKeyword(keyword, def) { const { RULES } = this; (0, util_1.eachItem)(keyword, (kwd) => { if (RULES.keywords[kwd]) throw new Error(`Keyword ${kwd} is already defined`); if (!KEYWORD_NAME.test(kwd)) throw new Error(`Keyword ${kwd} has invalid name`); }); if (!def) return; if (def.$data && !("code" in def || "validate" in def)) { throw new Error('$data keyword must have "code" or "validate" function'); } } function addRule(keyword, definition, dataType) { var _a; const post = definition === null || definition === void 0 ? void 0 : definition.post; if (dataType && post) throw new Error('keyword with "post" flag cannot have "type"'); const { RULES } = this; let ruleGroup = post ? RULES.post : RULES.rules.find(({ type: t }) => t === dataType); if (!ruleGroup) { ruleGroup = { type: dataType, rules: [] }; RULES.rules.push(ruleGroup); } RULES.keywords[keyword] = true; if (!definition) return; const rule = { keyword, definition: { ...definition, type: (0, dataType_1.getJSONTypes)(definition.type), schemaType: (0, dataType_1.getJSONTypes)(definition.schemaType), }, }; if (definition.before) addBeforeRule.call(this, ruleGroup, rule, definition.before); else ruleGroup.rules.push(rule); RULES.all[keyword] = rule; (_a = definition.implements) === null || _a === void 0 ? void 0 : _a.forEach((kwd) => this.addKeyword(kwd)); } function addBeforeRule(ruleGroup, rule, before) { const i = ruleGroup.rules.findIndex((_rule) => _rule.keyword === before); if (i >= 0) { ruleGroup.rules.splice(i, 0, rule); } else { ruleGroup.rules.push(rule); this.logger.warn(`rule ${before} is not defined`); } } function keywordMetaschema(def) { let { metaSchema } = def; if (metaSchema === undefined) return; if (def.$data && this.opts.$data) metaSchema = schemaOrData(metaSchema); def.validateSchema = this.compile(metaSchema, true); } const $dataRef = { $ref: "https://raw.githubusercontent.com/ajv-validator/ajv/master/lib/refs/data.json#", }; function schemaOrData(schema) { return { anyOf: [schema, $dataRef] }; } //# sourceMappingURL=core.js.map