"use strict"; /* * Copyright 2019 gRPC 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. * */ Object.defineProperty(exports, "__esModule", { value: true }); exports.extractAndSelectServiceConfig = exports.validateServiceConfig = exports.validateRetryThrottling = void 0; /* This file implements gRFC A2 and the service config spec: * https://github.com/grpc/proposal/blob/master/A2-service-configs-in-dns.md * https://github.com/grpc/grpc/blob/master/doc/service_config.md. Each * function here takes an object with unknown structure and returns its * specific object type if the input has the right structure, and throws an * error otherwise. */ /* The any type is purposely used here. All functions validate their input at * runtime */ /* eslint-disable @typescript-eslint/no-explicit-any */ const os = require("os"); const constants_1 = require("./constants"); /** * Recognizes a number with up to 9 digits after the decimal point, followed by * an "s", representing a number of seconds. */ const DURATION_REGEX = /^\d+(\.\d{1,9})?s$/; /** * Client language name used for determining whether this client matches a * `ServiceConfigCanaryConfig`'s `clientLanguage` list. */ const CLIENT_LANGUAGE_STRING = 'node'; function validateName(obj) { // In this context, and unset field and '' are considered the same if ('service' in obj && obj.service !== '') { if (typeof obj.service !== 'string') { throw new Error(`Invalid method config name: invalid service: expected type string, got ${typeof obj.service}`); } if ('method' in obj && obj.method !== '') { if (typeof obj.method !== 'string') { throw new Error(`Invalid method config name: invalid method: expected type string, got ${typeof obj.service}`); } return { service: obj.service, method: obj.method, }; } else { return { service: obj.service, }; } } else { if ('method' in obj && obj.method !== undefined) { throw new Error(`Invalid method config name: method set with empty or unset service`); } return {}; } } function validateRetryPolicy(obj) { if (!('maxAttempts' in obj) || !Number.isInteger(obj.maxAttempts) || obj.maxAttempts < 2) { throw new Error('Invalid method config retry policy: maxAttempts must be an integer at least 2'); } if (!('initialBackoff' in obj) || typeof obj.initialBackoff !== 'string' || !DURATION_REGEX.test(obj.initialBackoff)) { throw new Error('Invalid method config retry policy: initialBackoff must be a string consisting of a positive integer followed by s'); } if (!('maxBackoff' in obj) || typeof obj.maxBackoff !== 'string' || !DURATION_REGEX.test(obj.maxBackoff)) { throw new Error('Invalid method config retry policy: maxBackoff must be a string consisting of a positive integer followed by s'); } if (!('backoffMultiplier' in obj) || typeof obj.backoffMultiplier !== 'number' || obj.backoffMultiplier <= 0) { throw new Error('Invalid method config retry policy: backoffMultiplier must be a number greater than 0'); } if (!('retryableStatusCodes' in obj && Array.isArray(obj.retryableStatusCodes))) { throw new Error('Invalid method config retry policy: retryableStatusCodes is required'); } if (obj.retryableStatusCodes.length === 0) { throw new Error('Invalid method config retry policy: retryableStatusCodes must be non-empty'); } for (const value of obj.retryableStatusCodes) { if (typeof value === 'number') { if (!Object.values(constants_1.Status).includes(value)) { throw new Error('Invalid method config retry policy: retryableStatusCodes value not in status code range'); } } else if (typeof value === 'string') { if (!Object.values(constants_1.Status).includes(value.toUpperCase())) { throw new Error('Invalid method config retry policy: retryableStatusCodes value not a status code name'); } } else { throw new Error('Invalid method config retry policy: retryableStatusCodes value must be a string or number'); } } return { maxAttempts: obj.maxAttempts, initialBackoff: obj.initialBackoff, maxBackoff: obj.maxBackoff, backoffMultiplier: obj.backoffMultiplier, retryableStatusCodes: obj.retryableStatusCodes, }; } function validateHedgingPolicy(obj) { if (!('maxAttempts' in obj) || !Number.isInteger(obj.maxAttempts) || obj.maxAttempts < 2) { throw new Error('Invalid method config hedging policy: maxAttempts must be an integer at least 2'); } if ('hedgingDelay' in obj && (typeof obj.hedgingDelay !== 'string' || !DURATION_REGEX.test(obj.hedgingDelay))) { throw new Error('Invalid method config hedging policy: hedgingDelay must be a string consisting of a positive integer followed by s'); } if ('nonFatalStatusCodes' in obj && Array.isArray(obj.nonFatalStatusCodes)) { for (const value of obj.nonFatalStatusCodes) { if (typeof value === 'number') { if (!Object.values(constants_1.Status).includes(value)) { throw new Error('Invlid method config hedging policy: nonFatalStatusCodes value not in status code range'); } } else if (typeof value === 'string') { if (!Object.values(constants_1.Status).includes(value.toUpperCase())) { throw new Error('Invlid method config hedging policy: nonFatalStatusCodes value not a status code name'); } } else { throw new Error('Invlid method config hedging policy: nonFatalStatusCodes value must be a string or number'); } } } const result = { maxAttempts: obj.maxAttempts, }; if (obj.hedgingDelay) { result.hedgingDelay = obj.hedgingDelay; } if (obj.nonFatalStatusCodes) { result.nonFatalStatusCodes = obj.nonFatalStatusCodes; } return result; } function validateMethodConfig(obj) { var _a; const result = { name: [], }; if (!('name' in obj) || !Array.isArray(obj.name)) { throw new Error('Invalid method config: invalid name array'); } for (const name of obj.name) { result.name.push(validateName(name)); } if ('waitForReady' in obj) { if (typeof obj.waitForReady !== 'boolean') { throw new Error('Invalid method config: invalid waitForReady'); } result.waitForReady = obj.waitForReady; } if ('timeout' in obj) { if (typeof obj.timeout === 'object') { if (!('seconds' in obj.timeout) || !(typeof obj.timeout.seconds === 'number')) { throw new Error('Invalid method config: invalid timeout.seconds'); } if (!('nanos' in obj.timeout) || !(typeof obj.timeout.nanos === 'number')) { throw new Error('Invalid method config: invalid timeout.nanos'); } result.timeout = obj.timeout; } else if (typeof obj.timeout === 'string' && DURATION_REGEX.test(obj.timeout)) { const timeoutParts = obj.timeout .substring(0, obj.timeout.length - 1) .split('.'); result.timeout = { seconds: timeoutParts[0] | 0, nanos: ((_a = timeoutParts[1]) !== null && _a !== void 0 ? _a : 0) | 0, }; } else { throw new Error('Invalid method config: invalid timeout'); } } if ('maxRequestBytes' in obj) { if (typeof obj.maxRequestBytes !== 'number') { throw new Error('Invalid method config: invalid maxRequestBytes'); } result.maxRequestBytes = obj.maxRequestBytes; } if ('maxResponseBytes' in obj) { if (typeof obj.maxResponseBytes !== 'number') { throw new Error('Invalid method config: invalid maxRequestBytes'); } result.maxResponseBytes = obj.maxResponseBytes; } if ('retryPolicy' in obj) { if ('hedgingPolicy' in obj) { throw new Error('Invalid method config: retryPolicy and hedgingPolicy cannot both be specified'); } else { result.retryPolicy = validateRetryPolicy(obj.retryPolicy); } } else if ('hedgingPolicy' in obj) { result.hedgingPolicy = validateHedgingPolicy(obj.hedgingPolicy); } return result; } function validateRetryThrottling(obj) { if (!('maxTokens' in obj) || typeof obj.maxTokens !== 'number' || obj.maxTokens <= 0 || obj.maxTokens > 1000) { throw new Error('Invalid retryThrottling: maxTokens must be a number in (0, 1000]'); } if (!('tokenRatio' in obj) || typeof obj.tokenRatio !== 'number' || obj.tokenRatio <= 0) { throw new Error('Invalid retryThrottling: tokenRatio must be a number greater than 0'); } return { maxTokens: +obj.maxTokens.toFixed(3), tokenRatio: +obj.tokenRatio.toFixed(3), }; } exports.validateRetryThrottling = validateRetryThrottling; function validateLoadBalancingConfig(obj) { if (!(typeof obj === 'object' && obj !== null)) { throw new Error(`Invalid loadBalancingConfig: unexpected type ${typeof obj}`); } const keys = Object.keys(obj); if (keys.length > 1) { throw new Error(`Invalid loadBalancingConfig: unexpected multiple keys ${keys}`); } if (keys.length === 0) { throw new Error('Invalid loadBalancingConfig: load balancing policy name required'); } return { [keys[0]]: obj[keys[0]], }; } function validateServiceConfig(obj) { const result = { loadBalancingConfig: [], methodConfig: [], }; if ('loadBalancingPolicy' in obj) { if (typeof obj.loadBalancingPolicy === 'string') { result.loadBalancingPolicy = obj.loadBalancingPolicy; } else { throw new Error('Invalid service config: invalid loadBalancingPolicy'); } } if ('loadBalancingConfig' in obj) { if (Array.isArray(obj.loadBalancingConfig)) { for (const config of obj.loadBalancingConfig) { result.loadBalancingConfig.push(validateLoadBalancingConfig(config)); } } else { throw new Error('Invalid service config: invalid loadBalancingConfig'); } } if ('methodConfig' in obj) { if (Array.isArray(obj.methodConfig)) { for (const methodConfig of obj.methodConfig) { result.methodConfig.push(validateMethodConfig(methodConfig)); } } } if ('retryThrottling' in obj) { result.retryThrottling = validateRetryThrottling(obj.retryThrottling); } // Validate method name uniqueness const seenMethodNames = []; for (const methodConfig of result.methodConfig) { for (const name of methodConfig.name) { for (const seenName of seenMethodNames) { if (name.service === seenName.service && name.method === seenName.method) { throw new Error(`Invalid service config: duplicate name ${name.service}/${name.method}`); } } seenMethodNames.push(name); } } return result; } exports.validateServiceConfig = validateServiceConfig; function validateCanaryConfig(obj) { if (!('serviceConfig' in obj)) { throw new Error('Invalid service config choice: missing service config'); } const result = { serviceConfig: validateServiceConfig(obj.serviceConfig), }; if ('clientLanguage' in obj) { if (Array.isArray(obj.clientLanguage)) { result.clientLanguage = []; for (const lang of obj.clientLanguage) { if (typeof lang === 'string') { result.clientLanguage.push(lang); } else { throw new Error('Invalid service config choice: invalid clientLanguage'); } } } else { throw new Error('Invalid service config choice: invalid clientLanguage'); } } if ('clientHostname' in obj) { if (Array.isArray(obj.clientHostname)) { result.clientHostname = []; for (const lang of obj.clientHostname) { if (typeof lang === 'string') { result.clientHostname.push(lang); } else { throw new Error('Invalid service config choice: invalid clientHostname'); } } } else { throw new Error('Invalid service config choice: invalid clientHostname'); } } if ('percentage' in obj) { if (typeof obj.percentage === 'number' && 0 <= obj.percentage && obj.percentage <= 100) { result.percentage = obj.percentage; } else { throw new Error('Invalid service config choice: invalid percentage'); } } // Validate that no unexpected fields are present const allowedFields = [ 'clientLanguage', 'percentage', 'clientHostname', 'serviceConfig', ]; for (const field in obj) { if (!allowedFields.includes(field)) { throw new Error(`Invalid service config choice: unexpected field ${field}`); } } return result; } function validateAndSelectCanaryConfig(obj, percentage) { if (!Array.isArray(obj)) { throw new Error('Invalid service config list'); } for (const config of obj) { const validatedConfig = validateCanaryConfig(config); /* For each field, we check if it is present, then only discard the * config if the field value does not match the current client */ if (typeof validatedConfig.percentage === 'number' && percentage > validatedConfig.percentage) { continue; } if (Array.isArray(validatedConfig.clientHostname)) { let hostnameMatched = false; for (const hostname of validatedConfig.clientHostname) { if (hostname === os.hostname()) { hostnameMatched = true; } } if (!hostnameMatched) { continue; } } if (Array.isArray(validatedConfig.clientLanguage)) { let languageMatched = false; for (const language of validatedConfig.clientLanguage) { if (language === CLIENT_LANGUAGE_STRING) { languageMatched = true; } } if (!languageMatched) { continue; } } return validatedConfig.serviceConfig; } throw new Error('No matching service config found'); } /** * Find the "grpc_config" record among the TXT records, parse its value as JSON, validate its contents, * and select a service config with selection fields that all match this client. Most of these steps * can fail with an error; the caller must handle any errors thrown this way. * @param txtRecord The TXT record array that is output from a successful call to dns.resolveTxt * @param percentage A number chosen from the range [0, 100) that is used to select which config to use * @return The service configuration to use, given the percentage value, or null if the service config * data has a valid format but none of the options match the current client. */ function extractAndSelectServiceConfig(txtRecord, percentage) { for (const record of txtRecord) { if (record.length > 0 && record[0].startsWith('grpc_config=')) { /* Treat the list of strings in this record as a single string and remove * "grpc_config=" from the beginning. The rest should be a JSON string */ const recordString = record.join('').substring('grpc_config='.length); const recordJson = JSON.parse(recordString); return validateAndSelectCanaryConfig(recordJson, percentage); } } return null; } exports.extractAndSelectServiceConfig = extractAndSelectServiceConfig; //# sourceMappingURL=service-config.js.map