'use strict'; /*! * Module dependencies. */ const StrictModeError = require('./error/strict'); const Types = require('./schema/index'); const castTextSearch = require('./schema/operators/text'); const get = require('./helpers/get'); const util = require('util'); const utils = require('./utils'); const ALLOWED_GEOWITHIN_GEOJSON_TYPES = ['Polygon', 'MultiPolygon']; /** * Handles internal casting for query filters. * * @param {Schema} schema * @param {Object} obj Object to cast * @param {Object} options the query options * @param {Query} context passed to setters * @api private */ module.exports = function cast(schema, obj, options, context) { if (Array.isArray(obj)) { throw new Error('Query filter must be an object, got an array ', util.inspect(obj)); } const paths = Object.keys(obj); let i = paths.length; let _keys; let any$conditionals; let schematype; let nested; let path; let type; let val; options = options || {}; while (i--) { path = paths[i]; val = obj[path]; if (path === '$or' || path === '$nor' || path === '$and') { let k = val.length; while (k--) { val[k] = cast(schema, val[k], options, context); } } else if (path === '$where') { type = typeof val; if (type !== 'string' && type !== 'function') { throw new Error('Must have a string or function for $where'); } if (type === 'function') { obj[path] = val.toString(); } continue; } else if (path === '$elemMatch') { val = cast(schema, val, options, context); } else if (path === '$text') { val = castTextSearch(val, path); } else { if (!schema) { // no casting for Mixed types continue; } schematype = schema.path(path); // Check for embedded discriminator paths if (!schematype) { const split = path.split('.'); let j = split.length; while (j--) { const pathFirstHalf = split.slice(0, j).join('.'); const pathLastHalf = split.slice(j).join('.'); const _schematype = schema.path(pathFirstHalf); const discriminatorKey = get(_schematype, 'schema.options.discriminatorKey'); // gh-6027: if we haven't found the schematype but this path is // underneath an embedded discriminator and the embedded discriminator // key is in the query, use the embedded discriminator schema if (_schematype != null && get(_schematype, 'schema.discriminators') != null && discriminatorKey != null && pathLastHalf !== discriminatorKey) { const discriminatorVal = get(obj, pathFirstHalf + '.' + discriminatorKey); if (discriminatorVal != null) { schematype = _schematype.schema.discriminators[discriminatorVal]. path(pathLastHalf); } } } } if (!schematype) { // Handle potential embedded array queries const split = path.split('.'); let j = split.length; let pathFirstHalf; let pathLastHalf; let remainingConds; // Find the part of the var path that is a path of the Schema while (j--) { pathFirstHalf = split.slice(0, j).join('.'); schematype = schema.path(pathFirstHalf); if (schematype) { break; } } // If a substring of the input path resolves to an actual real path... if (schematype) { // Apply the casting; similar code for $elemMatch in schema/array.js if (schematype.caster && schematype.caster.schema) { remainingConds = {}; pathLastHalf = split.slice(j).join('.'); remainingConds[pathLastHalf] = val; obj[path] = cast(schematype.caster.schema, remainingConds, options, context)[pathLastHalf]; } else { obj[path] = val; } continue; } if (utils.isObject(val)) { // handle geo schemas that use object notation // { loc: { long: Number, lat: Number } let geo = ''; if (val.$near) { geo = '$near'; } else if (val.$nearSphere) { geo = '$nearSphere'; } else if (val.$within) { geo = '$within'; } else if (val.$geoIntersects) { geo = '$geoIntersects'; } else if (val.$geoWithin) { geo = '$geoWithin'; } if (geo) { const numbertype = new Types.Number('__QueryCasting__'); let value = val[geo]; if (val.$maxDistance != null) { val.$maxDistance = numbertype.castForQueryWrapper({ val: val.$maxDistance, context: context }); } if (val.$minDistance != null) { val.$minDistance = numbertype.castForQueryWrapper({ val: val.$minDistance, context: context }); } if (geo === '$within') { const withinType = value.$center || value.$centerSphere || value.$box || value.$polygon; if (!withinType) { throw new Error('Bad $within parameter: ' + JSON.stringify(val)); } value = withinType; } else if (geo === '$near' && typeof value.type === 'string' && Array.isArray(value.coordinates)) { // geojson; cast the coordinates value = value.coordinates; } else if ((geo === '$near' || geo === '$nearSphere' || geo === '$geoIntersects') && value.$geometry && typeof value.$geometry.type === 'string' && Array.isArray(value.$geometry.coordinates)) { if (value.$maxDistance != null) { value.$maxDistance = numbertype.castForQueryWrapper({ val: value.$maxDistance, context: context }); } if (value.$minDistance != null) { value.$minDistance = numbertype.castForQueryWrapper({ val: value.$minDistance, context: context }); } if (utils.isMongooseObject(value.$geometry)) { value.$geometry = value.$geometry.toObject({ transform: false, virtuals: false }); } value = value.$geometry.coordinates; } else if (geo === '$geoWithin') { if (value.$geometry) { if (utils.isMongooseObject(value.$geometry)) { value.$geometry = value.$geometry.toObject({ virtuals: false }); } const geoWithinType = value.$geometry.type; if (ALLOWED_GEOWITHIN_GEOJSON_TYPES.indexOf(geoWithinType) === -1) { throw new Error('Invalid geoJSON type for $geoWithin "' + geoWithinType + '", must be "Polygon" or "MultiPolygon"'); } value = value.$geometry.coordinates; } else { value = value.$box || value.$polygon || value.$center || value.$centerSphere; if (utils.isMongooseObject(value)) { value = value.toObject({ virtuals: false }); } } } _cast(value, numbertype, context); continue; } } if (schema.nested[path]) { continue; } if (options.upsert && options.strict) { if (options.strict === 'throw') { throw new StrictModeError(path); } throw new StrictModeError(path, 'Path "' + path + '" is not in ' + 'schema, strict mode is `true`, and upsert is `true`.'); } else if (options.strictQuery === 'throw') { throw new StrictModeError(path, 'Path "' + path + '" is not in ' + 'schema and strictQuery is \'throw\'.'); } else if (options.strictQuery) { delete obj[path]; } } else if (val == null) { continue; } else if (val.constructor.name === 'Object') { any$conditionals = Object.keys(val).some(function(k) { return k.startsWith('$') && k !== '$id' && k !== '$ref'; }); if (!any$conditionals) { obj[path] = schematype.castForQueryWrapper({ val: val, context: context }); } else { const ks = Object.keys(val); let $cond; let k = ks.length; while (k--) { $cond = ks[k]; nested = val[$cond]; if ($cond === '$not') { if (nested && schematype && !schematype.caster) { _keys = Object.keys(nested); if (_keys.length && _keys[0].startsWith('$')) { for (const key in nested) { nested[key] = schematype.castForQueryWrapper({ $conditional: key, val: nested[key], context: context }); } } else { val[$cond] = schematype.castForQueryWrapper({ $conditional: $cond, val: nested, context: context }); } continue; } cast(schematype.caster ? schematype.caster.schema : schema, nested, options, context); } else { val[$cond] = schematype.castForQueryWrapper({ $conditional: $cond, val: nested, context: context }); } } } } else if (Array.isArray(val) && ['Buffer', 'Array'].indexOf(schematype.instance) === -1) { const casted = []; for (let valIndex = 0; valIndex < val.length; valIndex++) { casted.push(schematype.castForQueryWrapper({ val: val[valIndex], context: context })); } obj[path] = { $in: casted }; } else { obj[path] = schematype.castForQueryWrapper({ val: val, context: context }); } } } return obj; }; function _cast(val, numbertype, context) { if (Array.isArray(val)) { val.forEach(function(item, i) { if (Array.isArray(item) || utils.isObject(item)) { return _cast(item, numbertype, context); } val[i] = numbertype.castForQueryWrapper({ val: item, context: context }); }); } else { const nearKeys = Object.keys(val); let nearLen = nearKeys.length; while (nearLen--) { const nkey = nearKeys[nearLen]; const item = val[nkey]; if (Array.isArray(item) || utils.isObject(item)) { _cast(item, numbertype, context); val[nkey] = item; } else { val[nkey] = numbertype.castForQuery({ val: item, context: context }); } } } }