"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.getData = exports.KeywordCxt = exports.validateFunctionCode = void 0;
const boolSchema_1 = require("./boolSchema");
const dataType_1 = require("./dataType");
const applicability_1 = require("./applicability");
const dataType_2 = require("./dataType");
const defaults_1 = require("./defaults");
const keyword_1 = require("./keyword");
const subschema_1 = require("./subschema");
const codegen_1 = require("../codegen");
const names_1 = require("../names");
const resolve_1 = require("../resolve");
const util_1 = require("../util");
const errors_1 = require("../errors");
// schema compilation - generates validation function, subschemaCode (below) is used for subschemas
function validateFunctionCode(it) {
if (isSchemaObj(it)) {
checkKeywords(it);
if (schemaCxtHasRules(it)) {
topSchemaObjCode(it);
return;
}
}
validateFunction(it, () => (0, boolSchema_1.topBoolOrEmptySchema)(it));
}
exports.validateFunctionCode = validateFunctionCode;
function validateFunction({ gen, validateName, schema, schemaEnv, opts }, body) {
if (opts.code.es5) {
gen.func(validateName, (0, codegen_1._) `${names_1.default.data}, ${names_1.default.valCxt}`, schemaEnv.$async, () => {
gen.code((0, codegen_1._) `"use strict"; ${funcSourceUrl(schema, opts)}`);
destructureValCxtES5(gen, opts);
gen.code(body);
});
}
else {
gen.func(validateName, (0, codegen_1._) `${names_1.default.data}, ${destructureValCxt(opts)}`, schemaEnv.$async, () => gen.code(funcSourceUrl(schema, opts)).code(body));
}
}
function destructureValCxt(opts) {
return (0, codegen_1._) `{${names_1.default.instancePath}="", ${names_1.default.parentData}, ${names_1.default.parentDataProperty}, ${names_1.default.rootData}=${names_1.default.data}${opts.dynamicRef ? (0, codegen_1._) `, ${names_1.default.dynamicAnchors}={}` : codegen_1.nil}}={}`;
}
function destructureValCxtES5(gen, opts) {
gen.if(names_1.default.valCxt, () => {
gen.var(names_1.default.instancePath, (0, codegen_1._) `${names_1.default.valCxt}.${names_1.default.instancePath}`);
gen.var(names_1.default.parentData, (0, codegen_1._) `${names_1.default.valCxt}.${names_1.default.parentData}`);
gen.var(names_1.default.parentDataProperty, (0, codegen_1._) `${names_1.default.valCxt}.${names_1.default.parentDataProperty}`);
gen.var(names_1.default.rootData, (0, codegen_1._) `${names_1.default.valCxt}.${names_1.default.rootData}`);
if (opts.dynamicRef)
gen.var(names_1.default.dynamicAnchors, (0, codegen_1._) `${names_1.default.valCxt}.${names_1.default.dynamicAnchors}`);
}, () => {
gen.var(names_1.default.instancePath, (0, codegen_1._) `""`);
gen.var(names_1.default.parentData, (0, codegen_1._) `undefined`);
gen.var(names_1.default.parentDataProperty, (0, codegen_1._) `undefined`);
gen.var(names_1.default.rootData, names_1.default.data);
if (opts.dynamicRef)
gen.var(names_1.default.dynamicAnchors, (0, codegen_1._) `{}`);
});
}
function topSchemaObjCode(it) {
const { schema, opts, gen } = it;
validateFunction(it, () => {
if (opts.$comment && schema.$comment)
commentKeyword(it);
checkNoDefault(it);
gen.let(names_1.default.vErrors, null);
gen.let(names_1.default.errors, 0);
if (opts.unevaluated)
resetEvaluated(it);
typeAndKeywords(it);
returnResults(it);
});
return;
}
function resetEvaluated(it) {
// TODO maybe some hook to execute it in the end to check whether props/items are Name, as in assignEvaluated
const { gen, validateName } = it;
it.evaluated = gen.const("evaluated", (0, codegen_1._) `${validateName}.evaluated`);
gen.if((0, codegen_1._) `${it.evaluated}.dynamicProps`, () => gen.assign((0, codegen_1._) `${it.evaluated}.props`, (0, codegen_1._) `undefined`));
gen.if((0, codegen_1._) `${it.evaluated}.dynamicItems`, () => gen.assign((0, codegen_1._) `${it.evaluated}.items`, (0, codegen_1._) `undefined`));
}
function funcSourceUrl(schema, opts) {
const schId = typeof schema == "object" && schema[opts.schemaId];
return schId && (opts.code.source || opts.code.process) ? (0, codegen_1._) `/*# sourceURL=${schId} */` : codegen_1.nil;
}
// schema compilation - this function is used recursively to generate code for sub-schemas
function subschemaCode(it, valid) {
if (isSchemaObj(it)) {
checkKeywords(it);
if (schemaCxtHasRules(it)) {
subSchemaObjCode(it, valid);
return;
}
}
(0, boolSchema_1.boolOrEmptySchema)(it, valid);
}
function schemaCxtHasRules({ schema, self }) {
if (typeof schema == "boolean")
return !schema;
for (const key in schema)
if (self.RULES.all[key])
return true;
return false;
}
function isSchemaObj(it) {
return typeof it.schema != "boolean";
}
function subSchemaObjCode(it, valid) {
const { schema, gen, opts } = it;
if (opts.$comment && schema.$comment)
commentKeyword(it);
updateContext(it);
checkAsyncSchema(it);
const errsCount = gen.const("_errs", names_1.default.errors);
typeAndKeywords(it, errsCount);
// TODO var
gen.var(valid, (0, codegen_1._) `${errsCount} === ${names_1.default.errors}`);
}
function checkKeywords(it) {
(0, util_1.checkUnknownRules)(it);
checkRefsAndKeywords(it);
}
function typeAndKeywords(it, errsCount) {
if (it.opts.jtd)
return schemaKeywords(it, [], false, errsCount);
const types = (0, dataType_1.getSchemaTypes)(it.schema);
const checkedTypes = (0, dataType_1.coerceAndCheckDataType)(it, types);
schemaKeywords(it, types, !checkedTypes, errsCount);
}
function checkRefsAndKeywords(it) {
const { schema, errSchemaPath, opts, self } = it;
if (schema.$ref && opts.ignoreKeywordsWithRef && (0, util_1.schemaHasRulesButRef)(schema, self.RULES)) {
self.logger.warn(`$ref: keywords ignored in schema at path "${errSchemaPath}"`);
}
}
function checkNoDefault(it) {
const { schema, opts } = it;
if (schema.default !== undefined && opts.useDefaults && opts.strictSchema) {
(0, util_1.checkStrictMode)(it, "default is ignored in the schema root");
}
}
function updateContext(it) {
const schId = it.schema[it.opts.schemaId];
if (schId)
it.baseId = (0, resolve_1.resolveUrl)(it.opts.uriResolver, it.baseId, schId);
}
function checkAsyncSchema(it) {
if (it.schema.$async && !it.schemaEnv.$async)
throw new Error("async schema in sync schema");
}
function commentKeyword({ gen, schemaEnv, schema, errSchemaPath, opts }) {
const msg = schema.$comment;
if (opts.$comment === true) {
gen.code((0, codegen_1._) `${names_1.default.self}.logger.log(${msg})`);
}
else if (typeof opts.$comment == "function") {
const schemaPath = (0, codegen_1.str) `${errSchemaPath}/$comment`;
const rootName = gen.scopeValue("root", { ref: schemaEnv.root });
gen.code((0, codegen_1._) `${names_1.default.self}.opts.$comment(${msg}, ${schemaPath}, ${rootName}.schema)`);
}
}
function returnResults(it) {
const { gen, schemaEnv, validateName, ValidationError, opts } = it;
if (schemaEnv.$async) {
// TODO assign unevaluated
gen.if((0, codegen_1._) `${names_1.default.errors} === 0`, () => gen.return(names_1.default.data), () => gen.throw((0, codegen_1._) `new ${ValidationError}(${names_1.default.vErrors})`));
}
else {
gen.assign((0, codegen_1._) `${validateName}.errors`, names_1.default.vErrors);
if (opts.unevaluated)
assignEvaluated(it);
gen.return((0, codegen_1._) `${names_1.default.errors} === 0`);
}
}
function assignEvaluated({ gen, evaluated, props, items }) {
if (props instanceof codegen_1.Name)
gen.assign((0, codegen_1._) `${evaluated}.props`, props);
if (items instanceof codegen_1.Name)
gen.assign((0, codegen_1._) `${evaluated}.items`, items);
}
function schemaKeywords(it, types, typeErrors, errsCount) {
const { gen, schema, data, allErrors, opts, self } = it;
const { RULES } = self;
if (schema.$ref && (opts.ignoreKeywordsWithRef || !(0, util_1.schemaHasRulesButRef)(schema, RULES))) {
gen.block(() => keywordCode(it, "$ref", RULES.all.$ref.definition)); // TODO typecast
return;
}
if (!opts.jtd)
checkStrictTypes(it, types);
gen.block(() => {
for (const group of RULES.rules)
groupKeywords(group);
groupKeywords(RULES.post);
});
function groupKeywords(group) {
if (!(0, applicability_1.shouldUseGroup)(schema, group))
return;
if (group.type) {
gen.if((0, dataType_2.checkDataType)(group.type, data, opts.strictNumbers));
iterateKeywords(it, group);
if (types.length === 1 && types[0] === group.type && typeErrors) {
gen.else();
(0, dataType_2.reportTypeError)(it);
}
gen.endIf();
}
else {
iterateKeywords(it, group);
}
// TODO make it "ok" call?
if (!allErrors)
gen.if((0, codegen_1._) `${names_1.default.errors} === ${errsCount || 0}`);
}
}
function iterateKeywords(it, group) {
const { gen, schema, opts: { useDefaults }, } = it;
if (useDefaults)
(0, defaults_1.assignDefaults)(it, group.type);
gen.block(() => {
for (const rule of group.rules) {
if ((0, applicability_1.shouldUseRule)(schema, rule)) {
keywordCode(it, rule.keyword, rule.definition, group.type);
}
}
});
}
function checkStrictTypes(it, types) {
if (it.schemaEnv.meta || !it.opts.strictTypes)
return;
checkContextTypes(it, types);
if (!it.opts.allowUnionTypes)
checkMultipleTypes(it, types);
checkKeywordTypes(it, it.dataTypes);
}
function checkContextTypes(it, types) {
if (!types.length)
return;
if (!it.dataTypes.length) {
it.dataTypes = types;
return;
}
types.forEach((t) => {
if (!includesType(it.dataTypes, t)) {
strictTypesError(it, `type "${t}" not allowed by context "${it.dataTypes.join(",")}"`);
}
});
narrowSchemaTypes(it, types);
}
function checkMultipleTypes(it, ts) {
if (ts.length > 1 && !(ts.length === 2 && ts.includes("null"))) {
strictTypesError(it, "use allowUnionTypes to allow union type keyword");
}
}
function checkKeywordTypes(it, ts) {
const rules = it.self.RULES.all;
for (const keyword in rules) {
const rule = rules[keyword];
if (typeof rule == "object" && (0, applicability_1.shouldUseRule)(it.schema, rule)) {
const { type } = rule.definition;
if (type.length && !type.some((t) => hasApplicableType(ts, t))) {
strictTypesError(it, `missing type "${type.join(",")}" for keyword "${keyword}"`);
}
}
}
}
function hasApplicableType(schTs, kwdT) {
return schTs.includes(kwdT) || (kwdT === "number" && schTs.includes("integer"));
}
function includesType(ts, t) {
return ts.includes(t) || (t === "integer" && ts.includes("number"));
}
function narrowSchemaTypes(it, withTypes) {
const ts = [];
for (const t of it.dataTypes) {
if (includesType(withTypes, t))
ts.push(t);
else if (withTypes.includes("integer") && t === "number")
ts.push("integer");
}
it.dataTypes = ts;
}
function strictTypesError(it, msg) {
const schemaPath = it.schemaEnv.baseId + it.errSchemaPath;
msg += ` at "${schemaPath}" (strictTypes)`;
(0, util_1.checkStrictMode)(it, msg, it.opts.strictTypes);
}
class KeywordCxt {
constructor(it, def, keyword) {
(0, keyword_1.validateKeywordUsage)(it, def, keyword);
this.gen = it.gen;
this.allErrors = it.allErrors;
this.keyword = keyword;
this.data = it.data;
this.schema = it.schema[keyword];
this.$data = def.$data && it.opts.$data && this.schema && this.schema.$data;
this.schemaValue = (0, util_1.schemaRefOrVal)(it, this.schema, keyword, this.$data);
this.schemaType = def.schemaType;
this.parentSchema = it.schema;
this.params = {};
this.it = it;
this.def = def;
if (this.$data) {
this.schemaCode = it.gen.const("vSchema", getData(this.$data, it));
}
else {
this.schemaCode = this.schemaValue;
if (!(0, keyword_1.validSchemaType)(this.schema, def.schemaType, def.allowUndefined)) {
throw new Error(`${keyword} value must be ${JSON.stringify(def.schemaType)}`);
}
}
if ("code" in def ? def.trackErrors : def.errors !== false) {
this.errsCount = it.gen.const("_errs", names_1.default.errors);
}
}
result(condition, successAction, failAction) {
this.failResult((0, codegen_1.not)(condition), successAction, failAction);
}
failResult(condition, successAction, failAction) {
this.gen.if(condition);
if (failAction)
failAction();
else
this.error();
if (successAction) {
this.gen.else();
successAction();
if (this.allErrors)
this.gen.endIf();
}
else {
if (this.allErrors)
this.gen.endIf();
else
this.gen.else();
}
}
pass(condition, failAction) {
this.failResult((0, codegen_1.not)(condition), undefined, failAction);
}
fail(condition) {
if (condition === undefined) {
this.error();
if (!this.allErrors)
this.gen.if(false); // this branch will be removed by gen.optimize
return;
}
this.gen.if(condition);
this.error();
if (this.allErrors)
this.gen.endIf();
else
this.gen.else();
}
fail$data(condition) {
if (!this.$data)
return this.fail(condition);
const { schemaCode } = this;
this.fail((0, codegen_1._) `${schemaCode} !== undefined && (${(0, codegen_1.or)(this.invalid$data(), condition)})`);
}
error(append, errorParams, errorPaths) {
if (errorParams) {
this.setParams(errorParams);
this._error(append, errorPaths);
this.setParams({});
return;
}
this._error(append, errorPaths);
}
_error(append, errorPaths) {
;
(append ? errors_1.reportExtraError : errors_1.reportError)(this, this.def.error, errorPaths);
}
$dataError() {
(0, errors_1.reportError)(this, this.def.$dataError || errors_1.keyword$DataError);
}
reset() {
if (this.errsCount === undefined)
throw new Error('add "trackErrors" to keyword definition');
(0, errors_1.resetErrorsCount)(this.gen, this.errsCount);
}
ok(cond) {
if (!this.allErrors)
this.gen.if(cond);
}
setParams(obj, assign) {
if (assign)
Object.assign(this.params, obj);
else
this.params = obj;
}
block$data(valid, codeBlock, $dataValid = codegen_1.nil) {
this.gen.block(() => {
this.check$data(valid, $dataValid);
codeBlock();
});
}
check$data(valid = codegen_1.nil, $dataValid = codegen_1.nil) {
if (!this.$data)
return;
const { gen, schemaCode, schemaType, def } = this;
gen.if((0, codegen_1.or)((0, codegen_1._) `${schemaCode} === undefined`, $dataValid));
if (valid !== codegen_1.nil)
gen.assign(valid, true);
if (schemaType.length || def.validateSchema) {
gen.elseIf(this.invalid$data());
this.$dataError();
if (valid !== codegen_1.nil)
gen.assign(valid, false);
}
gen.else();
}
invalid$data() {
const { gen, schemaCode, schemaType, def, it } = this;
return (0, codegen_1.or)(wrong$DataType(), invalid$DataSchema());
function wrong$DataType() {
if (schemaType.length) {
/* istanbul ignore if */
if (!(schemaCode instanceof codegen_1.Name))
throw new Error("ajv implementation error");
const st = Array.isArray(schemaType) ? schemaType : [schemaType];
return (0, codegen_1._) `${(0, dataType_2.checkDataTypes)(st, schemaCode, it.opts.strictNumbers, dataType_2.DataType.Wrong)}`;
}
return codegen_1.nil;
}
function invalid$DataSchema() {
if (def.validateSchema) {
const validateSchemaRef = gen.scopeValue("validate$data", { ref: def.validateSchema }); // TODO value.code for standalone
return (0, codegen_1._) `!${validateSchemaRef}(${schemaCode})`;
}
return codegen_1.nil;
}
}
subschema(appl, valid) {
const subschema = (0, subschema_1.getSubschema)(this.it, appl);
(0, subschema_1.extendSubschemaData)(subschema, this.it, appl);
(0, subschema_1.extendSubschemaMode)(subschema, appl);
const nextContext = { ...this.it, ...subschema, items: undefined, props: undefined };
subschemaCode(nextContext, valid);
return nextContext;
}
mergeEvaluated(schemaCxt, toName) {
const { it, gen } = this;
if (!it.opts.unevaluated)
return;
if (it.props !== true && schemaCxt.props !== undefined) {
it.props = util_1.mergeEvaluated.props(gen, schemaCxt.props, it.props, toName);
}
if (it.items !== true && schemaCxt.items !== undefined) {
it.items = util_1.mergeEvaluated.items(gen, schemaCxt.items, it.items, toName);
}
}
mergeValidEvaluated(schemaCxt, valid) {
const { it, gen } = this;
if (it.opts.unevaluated && (it.props !== true || it.items !== true)) {
gen.if(valid, () => this.mergeEvaluated(schemaCxt, codegen_1.Name));
return true;
}
}
}
exports.KeywordCxt = KeywordCxt;
function keywordCode(it, keyword, def, ruleType) {
const cxt = new KeywordCxt(it, def, keyword);
if ("code" in def) {
def.code(cxt, ruleType);
}
else if (cxt.$data && def.validate) {
(0, keyword_1.funcKeywordCode)(cxt, def);
}
else if ("macro" in def) {
(0, keyword_1.macroKeywordCode)(cxt, def);
}
else if (def.compile || def.validate) {
(0, keyword_1.funcKeywordCode)(cxt, def);
}
}
const JSON_POINTER = /^\/(?:[^~]|~0|~1)*$/;
const RELATIVE_JSON_POINTER = /^([0-9]+)(#|\/(?:[^~]|~0|~1)*)?$/;
function getData($data, { dataLevel, dataNames, dataPathArr }) {
let jsonPointer;
let data;
if ($data === "")
return names_1.default.rootData;
if ($data[0] === "/") {
if (!JSON_POINTER.test($data))
throw new Error(`Invalid JSON-pointer: ${$data}`);
jsonPointer = $data;
data = names_1.default.rootData;
}
else {
const matches = RELATIVE_JSON_POINTER.exec($data);
if (!matches)
throw new Error(`Invalid JSON-pointer: ${$data}`);
const up = +matches[1];
jsonPointer = matches[2];
if (jsonPointer === "#") {
if (up >= dataLevel)
throw new Error(errorMsg("property/index", up));
return dataPathArr[dataLevel - up];
}
if (up > dataLevel)
throw new Error(errorMsg("data", up));
data = dataNames[dataLevel - up];
if (!jsonPointer)
return data;
}
let expr = data;
const segments = jsonPointer.split("/");
for (const segment of segments) {
if (segment) {
data = (0, codegen_1._) `${data}${(0, codegen_1.getProperty)((0, util_1.unescapeJsonPointer)(segment))}`;
expr = (0, codegen_1._) `${expr} && ${data}`;
}
}
return expr;
function errorMsg(pointerType, up) {
return `Cannot access ${pointerType} ${up} levels up, current level is ${dataLevel}`;
}
}
exports.getData = getData;
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