// Copyright © 2023 OpenIM. All rights reserved. // // 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. package main import ( "context" "errors" "flag" "fmt" "net" "net/url" "os" "strings" "time" "github.com/IBM/sarama" "github.com/OpenIMSDK/tools/errs" "github.com/go-zookeeper/zk" "go.mongodb.org/mongo-driver/mongo" "go.mongodb.org/mongo-driver/mongo/options" "github.com/openimsdk/open-im-server/v3/pkg/common/config" "github.com/minio/minio-go/v7" "github.com/minio/minio-go/v7/pkg/credentials" "github.com/redis/go-redis/v9" "gopkg.in/yaml.v3" ) const ( // defaultCfgPath is the default path of the configuration file. defaultCfgPath = "../../../../../config/config.yaml" minioHealthCheckDuration = 1 maxRetry = 100 componentStartErrCode = 6000 configErrCode = 6001 ) const ( colorRed = 31 colorGreen = 32 colorYellow = 33 ) var ( cfgPath = flag.String("c", defaultCfgPath, "Path to the configuration file") ErrComponentStart = errs.NewCodeError(componentStartErrCode, "ComponentStartErr") ErrConfig = errs.NewCodeError(configErrCode, "Config file is incorrect") ) func initCfg() error { data, err := os.ReadFile(*cfgPath) if err != nil { return err } return yaml.Unmarshal(data, &config.Config) } type checkFunc struct { name string function func() (string, error) } func main() { flag.Parse() if err := initCfg(); err != nil { fmt.Printf("Read config failed: %v\n", err) return } checks := []checkFunc{ //{name: "Mysql", function: checkMysql}, {name: "Mongo", function: checkMongo}, {name: "Minio", function: checkMinio}, {name: "Redis", function: checkRedis}, {name: "Zookeeper", function: checkZookeeper}, {name: "Kafka", function: checkKafka}, } for i := 0; i < maxRetry; i++ { if i != 0 { time.Sleep(3 * time.Second) } fmt.Printf("Checking components Round %v...\n", i+1) allSuccess := true for _, check := range checks { str, err := check.function() if err != nil { errorPrint(fmt.Sprintf("Starting %s failed, %v", check.name, err)) allSuccess = false break } else { successPrint(fmt.Sprintf("%s connected successfully, %s", check.name, str)) } } if allSuccess { successPrint("All components started successfully!") return } } os.Exit(1) } func exactIP(urll string) string { u, _ := url.Parse(urll) host, _, err := net.SplitHostPort(u.Host) if err != nil { host = u.Host } if strings.HasSuffix(host, ":") { host = host[0 : len(host)-1] } return host } // Helper function to get environment variable or default value func getEnv(key, fallback string) string { if value, exists := os.LookupEnv(key); exists { return value } return fallback } // checkMongo checks the MongoDB connection func checkMongo() (string, error) { // Use environment variables or fallback to config uri := getEnv("MONGO_URI", buildMongoURI()) fmt.Println("mongo uri", uri) client, err := mongo.Connect(context.TODO(), options.Client().ApplyURI(uri)) str := "ths addr is:" + strings.Join(config.Config.Mongo.Address, ",") if err != nil { return "", errs.Wrap(errStr(err, str)) } defer client.Disconnect(context.TODO()) if err = client.Ping(context.TODO(), nil); err != nil { return "", errs.Wrap(errStr(err, str)) } return str, nil } // buildMongoURI constructs the MongoDB URI using configuration settings func buildMongoURI() string { // Fallback to config if environment variables are not set username := config.Config.Mongo.Username password := config.Config.Mongo.Password database := config.Config.Mongo.Database maxPoolSize := config.Config.Mongo.MaxPoolSize mongodbHosts := strings.Join(config.Config.Mongo.Address, ",") if username != "" && password != "" { return fmt.Sprintf("mongodb://%s:%s@%s/%s?maxPoolSize=%d", username, password, mongodbHosts, database, maxPoolSize) } return fmt.Sprintf("mongodb://%s/%s?maxPoolSize=%d", mongodbHosts, database, maxPoolSize) } // checkMinio checks the MinIO connection func checkMinio() (string, error) { // Check if MinIO is enabled if config.Config.Object.Enable != "minio" { return "", nil } // Prioritize environment variables endpoint := getEnv("MINIO_ENDPOINT", config.Config.Object.Minio.Endpoint) accessKeyID := getEnv("MINIO_ACCESS_KEY_ID", config.Config.Object.Minio.AccessKeyID) secretAccessKey := getEnv("MINIO_SECRET_ACCESS_KEY", config.Config.Object.Minio.SecretAccessKey) useSSL := getEnv("MINIO_USE_SSL", "false") // Assuming SSL is not used by default if endpoint == "" || accessKeyID == "" || secretAccessKey == "" { return "", ErrConfig.Wrap("MinIO configuration missing") } // Parse endpoint URL to determine if SSL is enabled u, err := url.Parse(endpoint) if err != nil { str := "the endpoint is:" + endpoint return "", errs.Wrap(errStr(err, str)) } secure := u.Scheme == "https" || useSSL == "true" // Initialize MinIO client minioClient, err := minio.New(u.Host, &minio.Options{ Creds: credentials.NewStaticV4(accessKeyID, secretAccessKey, ""), Secure: secure, }) str := "ths addr is:" + u.Host if err != nil { strs := fmt.Sprintf("%v;host:%s,accessKeyID:%s,secretAccessKey:%s,Secure:%v", err, u.Host, accessKeyID, secretAccessKey, secure) return "", errs.Wrap(err, strs) } // Perform health check cancel, err := minioClient.HealthCheck(time.Duration(minioHealthCheckDuration) * time.Second) if err != nil { return "", errs.Wrap(errStr(err, str)) } defer cancel() if minioClient.IsOffline() { // str := fmt.Sprintf("Minio server is offline;%s", str) // return "", ErrComponentStart.Wrap(str) } // Check for localhost in API URL and Minio SignEndpoint if exactIP(config.Config.Object.ApiURL) == "127.0.0.1" || exactIP(config.Config.Object.Minio.SignEndpoint) == "127.0.0.1" { return "", ErrConfig.Wrap("apiURL or Minio SignEndpoint endpoint contain 127.0.0.1") } return str, nil } // checkRedis checks the Redis connection func checkRedis() (string, error) { // Prioritize environment variables address := getEnv("REDIS_ADDRESS", strings.Join(config.Config.Redis.Address, ",")) username := getEnv("REDIS_USERNAME", config.Config.Redis.Username) password := getEnv("REDIS_PASSWORD", config.Config.Redis.Password) // Split address to handle multiple addresses for cluster setup redisAddresses := strings.Split(address, ",") var redisClient redis.UniversalClient if len(redisAddresses) > 1 { // Use cluster client for multiple addresses redisClient = redis.NewClusterClient(&redis.ClusterOptions{ Addrs: redisAddresses, Username: username, Password: password, }) } else { // Use regular client for single address redisClient = redis.NewClient(&redis.Options{ Addr: redisAddresses[0], Username: username, Password: password, }) } defer redisClient.Close() // Ping Redis to check connectivity _, err := redisClient.Ping(context.Background()).Result() str := "the addr is:" + strings.Join(redisAddresses, ",") if err != nil { return "", errs.Wrap(errStr(err, str)) } return str, nil } // checkZookeeper checks the Zookeeper connection func checkZookeeper() (string, error) { // Prioritize environment variables schema := getEnv("ZOOKEEPER_SCHEMA", "digest") address := getEnv("ZOOKEEPER_ADDRESS", strings.Join(config.Config.Zookeeper.ZkAddr, ",")) username := getEnv("ZOOKEEPER_USERNAME", config.Config.Zookeeper.Username) password := getEnv("ZOOKEEPER_PASSWORD", config.Config.Zookeeper.Password) // Split addresses to handle multiple Zookeeper nodes zookeeperAddresses := strings.Split(address, ",") // Connect to Zookeeper str := "the addr is:" + address c, eventChan, err := zk.Connect(zookeeperAddresses, time.Second) // Adjust the timeout as necessary if err != nil { return "", errs.Wrap(errStr(err, str)) } timeout := time.After(5 * time.Second) for { select { case event := <-eventChan: if event.State == zk.StateConnected { fmt.Println("Connected to Zookeeper") goto Connected } case <-timeout: return "", errs.Wrap(errors.New("timeout waiting for Zookeeper connection"), "Zookeeper Addr: "+strings.Join(config.Config.Zookeeper.ZkAddr, " ")) } } Connected: defer c.Close() // Set authentication if username and password are provided if username != "" && password != "" { if err := c.AddAuth(schema, []byte(username+":"+password)); err != nil { return "", errs.Wrap(errStr(err, str)) } } return str, nil } // checkKafka checks the Kafka connection func checkKafka() (string, error) { // Prioritize environment variables username := getEnv("KAFKA_USERNAME", config.Config.Kafka.Username) password := getEnv("KAFKA_PASSWORD", config.Config.Kafka.Password) address := getEnv("KAFKA_ADDRESS", strings.Join(config.Config.Kafka.Addr, ",")) // Split addresses to handle multiple Kafka brokers kafkaAddresses := strings.Split(address, ",") // Configure Kafka client cfg := sarama.NewConfig() if username != "" && password != "" { cfg.Net.SASL.Enable = true cfg.Net.SASL.User = username cfg.Net.SASL.Password = password } // Additional Kafka setup (e.g., TLS configuration) can be added here // kafka.SetupTLSConfig(cfg) // Create Kafka client str := "the addr is:" + address kafkaClient, err := sarama.NewClient(kafkaAddresses, cfg) if err != nil { return "", errs.Wrap(errStr(err, str)) } defer kafkaClient.Close() // Verify if necessary topics exist topics, err := kafkaClient.Topics() if err != nil { return "", errs.Wrap(err) } requiredTopics := []string{ config.Config.Kafka.MsgToMongo.Topic, config.Config.Kafka.MsgToPush.Topic, config.Config.Kafka.LatestMsgToRedis.Topic, } for _, requiredTopic := range requiredTopics { if !isTopicPresent(requiredTopic, topics) { return "", ErrComponentStart.Wrap(fmt.Sprintf("Kafka doesn't contain topic: %v", requiredTopic)) } } return str, nil } // isTopicPresent checks if a topic is present in the list of topics func isTopicPresent(topic string, topics []string) bool { for _, t := range topics { if t == topic { return true } } return false } func colorPrint(colorCode int, format string, a ...interface{}) { fmt.Printf("\x1b[%dm%s\x1b[0m\n", colorCode, fmt.Sprintf(format, a...)) } func errorPrint(s string) { colorPrint(colorRed, "%v", s) } func successPrint(s string) { colorPrint(colorGreen, "%v", s) } func warningPrint(s string) { colorPrint(colorYellow, "Warning: But %v", s) } func errStr(err error, str string) error { return fmt.Errorf("%v;%s", err, str) }