package main import ( "encoding/json" "fmt" "math" "os" "path" "runtime" "sort" "strconv" "strings" "time" "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api" "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api/handler" "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/api/resolver" "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/internal/logs" internalnet "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/internal/net" "git.frostfs.info/TrueCloudLab/frostfs-s3-gw/internal/version" "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/netmap" "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/pool" "git.frostfs.info/TrueCloudLab/zapjournald" "github.com/spf13/pflag" "github.com/spf13/viper" "github.com/ssgreg/journald" "go.uber.org/zap" "go.uber.org/zap/zapcore" ) const ( destinationStdout = "stdout" destinationJournald = "journald" wildcardPlaceholder = "" ) const ( defaultRebalanceInterval = 60 * time.Second defaultHealthcheckTimeout = 15 * time.Second defaultConnectTimeout = 10 * time.Second defaultStreamTimeout = 10 * time.Second defaultShutdownTimeout = 15 * time.Second defaultLoggerSamplerInterval = 1 * time.Second defaultGracefulCloseOnSwitchTimeout = 10 * time.Second defaultPoolErrorThreshold uint32 = 100 defaultPlacementPolicy = "REP 3" defaultMaxClientsCount = 100 defaultMaxClientsDeadline = time.Second * 30 defaultSoftMemoryLimit = math.MaxInt64 defaultReadHeaderTimeout = 30 * time.Second defaultIdleTimeout = 30 * time.Second defaultAccessBoxCacheRemovingCheckInterval = 5 * time.Minute defaultNamespaceHeader = "X-Frostfs-Namespace" defaultVHSHeader = "X-Frostfs-S3-VHS" defaultServernameHeader = "X-Frostfs-Servername" defaultMultinetFallbackDelay = 300 * time.Millisecond defaultConstraintName = "default" defaultNamespace = "" defaultReconnectInterval = time.Minute defaultRetryMaxAttempts = 4 defaultRetryMaxBackoff = 30 * time.Second defaultRetryStrategy = handler.RetryStrategyExponential ) var ( defaultCopiesNumbers = []uint32{0} defaultDefaultNamespaces = []string{"", "root"} ) const ( // Settings. // Logger. cfgLoggerLevel = "logger.level" cfgLoggerDestination = "logger.destination" cfgLoggerSamplingEnabled = "logger.sampling.enabled" cfgLoggerSamplingInitial = "logger.sampling.initial" cfgLoggerSamplingThereafter = "logger.sampling.thereafter" cfgLoggerSamplingInterval = "logger.sampling.interval" // HttpLogging. cfgHTTPLoggingEnabled = "http_logging.enabled" cfgHTTPLoggingMaxBody = "http_logging.max_body" cfgHTTPLoggingMaxLogSize = "http_logging.max_log_size" cfgHTTPLoggingDestination = "http_logging.destination" cfgHTTPLoggingGzip = "http_logging.gzip" cfgHTTPLoggingLogResponse = "http_logging.log_response" // Wallet. cfgWalletPath = "wallet.path" cfgWalletAddress = "wallet.address" cfgWalletPassphrase = "wallet.passphrase" cmdWallet = "wallet" cmdAddress = "address" // Server. cfgServer = "server" cfgTLSEnabled = "tls.enabled" cfgTLSKeyFile = "tls.key_file" cfgTLSCertFile = "tls.cert_file" // Pool config. cfgConnectTimeout = "connect_timeout" cfgStreamTimeout = "stream_timeout" cfgHealthcheckTimeout = "healthcheck_timeout" cfgRebalanceInterval = "rebalance_interval" cfgPoolErrorThreshold = "pool_error_threshold" // Caching. cfgObjectsCacheLifetime = "cache.objects.lifetime" cfgObjectsCacheSize = "cache.objects.size" cfgListObjectsCacheLifetime = "cache.list.lifetime" cfgListObjectsCacheSize = "cache.list.size" cfgSessionListCacheLifetime = "cache.list_session.lifetime" cfgSessionListCacheSize = "cache.list_session.size" cfgBucketsCacheLifetime = "cache.buckets.lifetime" cfgBucketsCacheSize = "cache.buckets.size" cfgNamesCacheLifetime = "cache.names.lifetime" cfgNamesCacheSize = "cache.names.size" cfgSystemCacheLifetime = "cache.system.lifetime" cfgSystemCacheSize = "cache.system.size" cfgAccessBoxCacheLifetime = "cache.accessbox.lifetime" cfgAccessBoxCacheSize = "cache.accessbox.size" cfgAccessControlCacheLifetime = "cache.accesscontrol.lifetime" cfgAccessControlCacheSize = "cache.accesscontrol.size" cfgMorphPolicyCacheLifetime = "cache.morph_policy.lifetime" cfgMorphPolicyCacheSize = "cache.morph_policy.size" cfgFrostfsIDCacheLifetime = "cache.frostfsid.lifetime" cfgFrostfsIDCacheSize = "cache.frostfsid.size" cfgNetworkInfoCacheLifetime = "cache.network_info.lifetime" cfgAccessBoxCacheRemovingCheckInterval = "cache.accessbox.removing_check_interval" // Policy. cfgPolicyDefault = "placement_policy.default" cfgPolicyRegionMapFile = "placement_policy.region_mapping" cfgCopiesNumbers = "placement_policy.copies_numbers" // CORS. cfgDefaultMaxAge = "cors.default_max_age" // MaxClients. cfgMaxClientsCount = "max_clients_count" cfgMaxClientsDeadline = "max_clients_deadline" // Metrics / Profiler / Web. cfgPrometheusEnabled = "prometheus.enabled" cfgPrometheusAddress = "prometheus.address" cfgPProfEnabled = "pprof.enabled" cfgPProfAddress = "pprof.address" // Tracing. cfgTracingEnabled = "tracing.enabled" cfgTracingExporter = "tracing.exporter" cfgTracingEndpoint = "tracing.endpoint" cfgTracingTrustedCa = "tracing.trusted_ca" cfgListenDomains = "listen_domains" // VHS. cfgVHSEnabled = "vhs.enabled" cfgVHSHeader = "vhs.vhs_header" cfgServernameHeader = "vhs.servername_header" cfgVHSNamespaces = "vhs.namespaces" // Peers. cfgPeers = "peers" // NeoGo. cfgRPCEndpoint = "rpc_endpoint" // Resolving. cfgResolveOrder = "resolve_order" // Application. cfgApplicationBuildTime = "app.build_time" // Kludge. cfgKludgeUseDefaultXMLNS = "kludge.use_default_xmlns" cfgKludgeBypassContentEncodingCheckInChunks = "kludge.bypass_content_encoding_check_in_chunks" cfgKludgeDefaultNamespaces = "kludge.default_namespaces" // Web. cfgWebReadTimeout = "web.read_timeout" cfgWebReadHeaderTimeout = "web.read_header_timeout" cfgWebWriteTimeout = "web.write_timeout" cfgWebIdleTimeout = "web.idle_timeout" // Retry. cfgRetryMaxAttempts = "retry.max_attempts" cfgRetryMaxBackoff = "retry.max_backoff" cfgRetryStrategy = "retry.strategy" // Namespaces. cfgNamespacesConfig = "namespaces.config" cfgSourceIPHeader = "source_ip_header" // Containers. cfgContainersCORS = "containers.cors" cfgContainersLifecycle = "containers.lifecycle" cfgContainersAccessBox = "containers.accessbox" // Multinet. cfgMultinetEnabled = "multinet.enabled" cfgMultinetBalancer = "multinet.balancer" cfgMultinetRestrict = "multinet.restrict" cfgMultinetFallbackDelay = "multinet.fallback_delay" cfgMultinetSubnets = "multinet.subnets" // Command line args. cmdHelp = "help" cmdVersion = "version" cmdConfig = "config" cmdConfigDir = "config-dir" cmdPProf = "pprof" cmdMetrics = "metrics" cmdListenAddress = "listen_address" // Configuration of parameters of requests to FrostFS. // Number of the object copies to consider PUT to FrostFS successful. cfgSetCopiesNumber = "frostfs.set_copies_number" // Enabling client side object preparing for PUT operations. cfgClientCut = "frostfs.client_cut" // Sets max buffer size for read payload in put operations. cfgBufferMaxSizeForPut = "frostfs.buffer_max_size_for_put" // Sets max attempt to make successful tree request. cfgTreePoolMaxAttempts = "frostfs.tree_pool_max_attempts" // Specifies the timeout after which unhealthy client be closed during rebalancing // if it will become healthy back. cfgGracefulCloseOnSwitchTimeout = "frostfs.graceful_close_on_switch_timeout" // List of allowed AccessKeyID prefixes. cfgAllowedAccessKeyIDPrefixes = "allowed_access_key_id_prefixes" // Bucket resolving options. cfgResolveNamespaceHeader = "resolve_bucket.namespace_header" cfgResolveBucketAllow = "resolve_bucket.allow" cfgResolveBucketDeny = "resolve_bucket.deny" // Runtime. cfgSoftMemoryLimit = "runtime.soft_memory_limit" // Enable return MD5 checksum in ETag. cfgMD5Enabled = "features.md5.enabled" cfgPolicyDenyByDefault = "features.policy.deny_by_default" // FrostfsID. cfgFrostfsIDContract = "frostfsid.contract" cfgFrostfsIDValidationEnabled = "frostfsid.validation.enabled" // Policy. cfgPolicyContract = "policy.contract" // Proxy. cfgProxyContract = "proxy.contract" // Server. cfgReconnectInterval = "reconnect_interval" // envPrefix is an environment variables prefix used for configuration. envPrefix = "S3_GW" ) var ignore = map[string]struct{}{ cfgApplicationBuildTime: {}, cfgPeers: {}, cmdHelp: {}, cmdVersion: {}, } func fetchConnectTimeout(cfg *viper.Viper) time.Duration { connTimeout := cfg.GetDuration(cfgConnectTimeout) if connTimeout <= 0 { connTimeout = defaultConnectTimeout } return connTimeout } func fetchReconnectInterval(cfg *viper.Viper) time.Duration { reconnect := cfg.GetDuration(cfgReconnectInterval) if reconnect <= 0 { reconnect = defaultReconnectInterval } return reconnect } func fetchStreamTimeout(cfg *viper.Viper) time.Duration { streamTimeout := cfg.GetDuration(cfgStreamTimeout) if streamTimeout <= 0 { streamTimeout = defaultStreamTimeout } return streamTimeout } func fetchHealthCheckTimeout(cfg *viper.Viper) time.Duration { healthCheckTimeout := cfg.GetDuration(cfgHealthcheckTimeout) if healthCheckTimeout <= 0 { healthCheckTimeout = defaultHealthcheckTimeout } return healthCheckTimeout } func fetchRebalanceInterval(cfg *viper.Viper) time.Duration { rebalanceInterval := cfg.GetDuration(cfgRebalanceInterval) if rebalanceInterval <= 0 { rebalanceInterval = defaultRebalanceInterval } return rebalanceInterval } func fetchSetGracefulCloseOnSwitchTimeout(cfg *viper.Viper) time.Duration { val := cfg.GetDuration(cfgGracefulCloseOnSwitchTimeout) if val <= 0 { val = defaultGracefulCloseOnSwitchTimeout } return val } func fetchErrorThreshold(cfg *viper.Viper) uint32 { errorThreshold := cfg.GetUint32(cfgPoolErrorThreshold) if errorThreshold <= 0 { errorThreshold = defaultPoolErrorThreshold } return errorThreshold } func fetchMaxClientsCount(cfg *viper.Viper) int { maxClientsCount := cfg.GetInt(cfgMaxClientsCount) if maxClientsCount <= 0 { maxClientsCount = defaultMaxClientsCount } return maxClientsCount } func fetchMaxClientsDeadline(cfg *viper.Viper) time.Duration { maxClientsDeadline := cfg.GetDuration(cfgMaxClientsDeadline) if maxClientsDeadline <= 0 { maxClientsDeadline = defaultMaxClientsDeadline } return maxClientsDeadline } func fetchSoftMemoryLimit(cfg *viper.Viper) int64 { softMemoryLimit := cfg.GetSizeInBytes(cfgSoftMemoryLimit) if softMemoryLimit <= 0 { softMemoryLimit = defaultSoftMemoryLimit } return int64(softMemoryLimit) } func fetchRetryMaxAttempts(cfg *viper.Viper) int { val := cfg.GetInt(cfgRetryMaxAttempts) if val <= 0 { val = defaultRetryMaxAttempts } return val } func fetchRetryMaxBackoff(cfg *viper.Viper) time.Duration { val := cfg.GetDuration(cfgRetryMaxBackoff) if val <= 0 { val = defaultRetryMaxBackoff } return val } func fetchRetryStrategy(cfg *viper.Viper) handler.RetryStrategy { val := handler.RetryStrategy(cfg.GetString(cfgRetryStrategy)) if val != handler.RetryStrategyExponential && val != handler.RetryStrategyConstant { val = defaultRetryStrategy } return val } func fetchDefaultPolicy(l *zap.Logger, cfg *viper.Viper) netmap.PlacementPolicy { var policy netmap.PlacementPolicy if cfg.IsSet(cfgPolicyDefault) { policyStr := cfg.GetString(cfgPolicyDefault) if err := policy.DecodeString(policyStr); err != nil { l.Warn(logs.FailedToParseDefaultLocationConstraint, zap.String("policy", policyStr), zap.String("default", defaultPlacementPolicy), zap.Error(err)) } else { return policy } } if err := policy.DecodeString(defaultPlacementPolicy); err != nil { l.Fatal(logs.FailedToParseDefaultDefaultLocationConstraint, zap.String("policy", defaultPlacementPolicy)) } return policy } func fetchCacheLifetime(v *viper.Viper, l *zap.Logger, cfgEntry string, defaultValue time.Duration) time.Duration { if v.IsSet(cfgEntry) { lifetime := v.GetDuration(cfgEntry) if lifetime <= 0 { l.Error(logs.InvalidLifetimeUsingDefaultValue, zap.String("parameter", cfgEntry), zap.Duration("value in config", lifetime), zap.Duration("default", defaultValue)) } else { return lifetime } } return defaultValue } func fetchCacheSize(v *viper.Viper, l *zap.Logger, cfgEntry string, defaultValue int) int { if v.IsSet(cfgEntry) { size := v.GetInt(cfgEntry) if size <= 0 { l.Error(logs.InvalidCacheSizeUsingDefaultValue, zap.String("parameter", cfgEntry), zap.Int("value in config", size), zap.Int("default", defaultValue)) } else { return size } } return defaultValue } func fetchRemovingCheckInterval(v *viper.Viper, l *zap.Logger) time.Duration { if !v.IsSet(cfgAccessBoxCacheRemovingCheckInterval) { return defaultAccessBoxCacheRemovingCheckInterval } duration := v.GetDuration(cfgAccessBoxCacheRemovingCheckInterval) if duration >= 0 { return duration } l.Error(logs.InvalidAccessBoxCacheRemovingCheckInterval, zap.String("parameter", cfgAccessBoxCacheRemovingCheckInterval), zap.Duration("value in config", duration), zap.Duration("default", defaultAccessBoxCacheRemovingCheckInterval)) return defaultAccessBoxCacheRemovingCheckInterval } func fetchDefaultMaxAge(cfg *viper.Viper, l *zap.Logger) int { defaultMaxAge := handler.DefaultMaxAge if cfg.IsSet(cfgDefaultMaxAge) { defaultMaxAge = cfg.GetInt(cfgDefaultMaxAge) if defaultMaxAge <= 0 && defaultMaxAge != -1 { l.Fatal(logs.InvalidDefaultMaxAge, zap.String("parameter", cfgDefaultMaxAge), zap.String("value in config", strconv.Itoa(defaultMaxAge))) } } return defaultMaxAge } func fetchRegionMappingPolicies(l *zap.Logger, cfg *viper.Viper) map[string]netmap.PlacementPolicy { filepath := cfg.GetString(cfgPolicyRegionMapFile) regionPolicyMap, err := readRegionMap(filepath) if err != nil { l.Warn(logs.FailedToReadRegionMapFilePolicies, zap.String("file", filepath), zap.Error(err)) return make(map[string]netmap.PlacementPolicy) } regionMap := make(map[string]netmap.PlacementPolicy, len(regionPolicyMap)) for region, policy := range regionPolicyMap { if region == api.DefaultLocationConstraint { l.Warn(logs.DefaultLocationConstraintCantBeOverriden, zap.String("policy", policy)) continue } var pp netmap.PlacementPolicy if err = pp.DecodeString(policy); err == nil { regionMap[region] = pp continue } if err = pp.UnmarshalJSON([]byte(policy)); err == nil { regionMap[region] = pp continue } l.Warn(logs.FailedToParseLocationConstraint, zap.String("region", region), zap.String("policy", policy)) } return regionMap } func readRegionMap(filePath string) (map[string]string, error) { regionMap := make(map[string]string) if filePath == "" { return regionMap, nil } data, err := os.ReadFile(filePath) if err != nil { return nil, fmt.Errorf("coudln't read file '%s'", filePath) } if err = json.Unmarshal(data, ®ionMap); err != nil { return nil, fmt.Errorf("unmarshal policies: %w", err) } return regionMap, nil } func fetchDefaultCopiesNumbers(l *zap.Logger, v *viper.Viper) []uint32 { unparsed := v.GetStringSlice(cfgSetCopiesNumber) result := make([]uint32, len(unparsed)) for i := range unparsed { parsedValue, err := strconv.ParseUint(unparsed[i], 10, 32) if err != nil { l.Warn(logs.FailedToParseDefaultCopiesNumbers, zap.Strings("copies numbers", unparsed), zap.Uint32s("default", defaultCopiesNumbers), zap.Error(err)) return defaultCopiesNumbers } result[i] = uint32(parsedValue) } return result } func fetchCopiesNumbers(l *zap.Logger, v *viper.Viper) map[string][]uint32 { copiesNums := make(map[string][]uint32) for i := 0; ; i++ { key := cfgCopiesNumbers + "." + strconv.Itoa(i) + "." constraint := v.GetString(key + "location_constraint") vector := v.GetStringSlice(key + "vector") if constraint == "" || len(vector) == 0 { break } vector32 := make([]uint32, len(vector)) for j := range vector { parsedValue, err := strconv.ParseUint(vector[j], 10, 32) if err != nil { l.Warn(logs.FailedToParseCopiesNumbers, zap.String("location", constraint), zap.Strings("copies numbers", vector), zap.Error(err)) continue } vector32[j] = uint32(parsedValue) } copiesNums[constraint] = vector32 l.Info(logs.ConstraintAdded, zap.String("location", constraint), zap.Strings("copies numbers", vector)) } return copiesNums } func fetchDefaultNamespaces(l *zap.Logger, v *viper.Viper) []string { defaultNamespaces := v.GetStringSlice(cfgKludgeDefaultNamespaces) if len(defaultNamespaces) == 0 { defaultNamespaces = defaultDefaultNamespaces l.Warn(logs.DefaultNamespacesCannotBeEmpty, zap.Strings("namespaces", defaultNamespaces)) } for i := range defaultNamespaces { // to be set namespaces in env variable as `S3_GW_KLUDGE_DEFAULT_NAMESPACES="" 'root'` defaultNamespaces[i] = strings.Trim(defaultNamespaces[i], "\"'") } return defaultNamespaces } func fetchNamespacesConfig(l *zap.Logger, v *viper.Viper) (NamespacesConfig, []string) { defaultNSRegionMap := fetchRegionMappingPolicies(l, v) defaultNSRegionMap[defaultConstraintName] = fetchDefaultPolicy(l, v) defaultNSCopiesNumbers := fetchCopiesNumbers(l, v) defaultNSCopiesNumbers[defaultConstraintName] = fetchDefaultCopiesNumbers(l, v) defaultNSValue := Namespace{ LocationConstraints: defaultNSRegionMap, CopiesNumbers: defaultNSCopiesNumbers, } nsConfig, err := readNamespacesConfig(v.GetString(cfgNamespacesConfig)) if err != nil { l.Warn(logs.FailedToParseNamespacesConfig, zap.Error(err)) } defaultNamespacesNames := fetchDefaultNamespaces(l, v) var overrideDefaults []Namespace for _, name := range defaultNamespacesNames { if ns, ok := nsConfig.Namespaces[name]; ok { overrideDefaults = append(overrideDefaults, ns) delete(nsConfig.Namespaces, name) } } if len(overrideDefaults) > 0 { l.Warn(logs.DefaultNamespaceConfigValuesBeOverwritten) defaultNSValue.LocationConstraints = overrideDefaults[0].LocationConstraints defaultNSValue.CopiesNumbers = overrideDefaults[0].CopiesNumbers if len(overrideDefaults) > 1 { l.Warn(logs.MultipleDefaultOverridesFound, zap.String("name", overrideDefaults[0].Name)) } } nsConfig.Namespaces[defaultNamespace] = Namespace{ Name: defaultNamespace, LocationConstraints: defaultNSValue.LocationConstraints, CopiesNumbers: defaultNSValue.CopiesNumbers, } return nsConfig, defaultNamespacesNames } func readNamespacesConfig(filepath string) (NamespacesConfig, error) { nsConfig := NamespacesConfig{ Namespaces: make(Namespaces), } if filepath == "" { return nsConfig, nil } data, err := os.ReadFile(filepath) if err != nil { return nsConfig, fmt.Errorf("failed to read namespace config '%s': %w", filepath, err) } if err = json.Unmarshal(data, &nsConfig); err != nil { return nsConfig, fmt.Errorf("failed to parse namespace config: %w", err) } return nsConfig, nil } func fetchPeers(l *zap.Logger, v *viper.Viper) []pool.NodeParam { var nodes []pool.NodeParam for i := 0; ; i++ { key := cfgPeers + "." + strconv.Itoa(i) + "." address := v.GetString(key + "address") weight := v.GetFloat64(key + "weight") priority := v.GetInt(key + "priority") if address == "" { l.Warn(logs.SkipEmptyAddress) break } if weight <= 0 { // unspecified or wrong weight = 1 } if priority <= 0 { // unspecified or wrong priority = 1 } nodes = append(nodes, pool.NewNodeParam(priority, address, weight)) l.Info(logs.AddedStoragePeer, zap.Int("priority", priority), zap.String("address", address), zap.Float64("weight", weight)) } return nodes } func fetchServers(v *viper.Viper, log *zap.Logger) []ServerInfo { var servers []ServerInfo seen := make(map[string]struct{}) for i := 0; ; i++ { key := cfgServer + "." + strconv.Itoa(i) + "." var serverInfo ServerInfo serverInfo.Address = v.GetString(key + "address") serverInfo.TLS.Enabled = v.GetBool(key + cfgTLSEnabled) serverInfo.TLS.KeyFile = v.GetString(key + cfgTLSKeyFile) serverInfo.TLS.CertFile = v.GetString(key + cfgTLSCertFile) if serverInfo.Address == "" { break } if _, ok := seen[serverInfo.Address]; ok { log.Warn(logs.WarnDuplicateAddress, zap.String("address", serverInfo.Address)) continue } seen[serverInfo.Address] = struct{}{} servers = append(servers, serverInfo) } return servers } func fetchDomains(v *viper.Viper, log *zap.Logger) []string { domains := validateDomains(v.GetStringSlice(cfgListenDomains), log) countParts := func(domain string) int { return strings.Count(domain, ".") } sort.Slice(domains, func(i, j int) bool { return countParts(domains[i]) > countParts(domains[j]) }) return domains } func fetchVHSNamespaces(v *viper.Viper, log *zap.Logger) map[string]bool { vhsNamespacesEnabled := make(map[string]bool) nsMap := v.GetStringMap(cfgVHSNamespaces) for ns, val := range nsMap { if _, ok := vhsNamespacesEnabled[ns]; ok { log.Warn(logs.WarnDuplicateNamespaceVHS, zap.String("namespace", ns)) continue } enabledFlag, ok := val.(bool) if !ok { log.Warn(logs.WarnValueVHSEnabledFlagWrongType, zap.String("namespace", ns)) continue } vhsNamespacesEnabled[ns] = enabledFlag } return vhsNamespacesEnabled } func fetchMultinetConfig(v *viper.Viper, logger *zap.Logger) (cfg internalnet.Config) { cfg.Enabled = v.GetBool(cfgMultinetEnabled) cfg.Balancer = v.GetString(cfgMultinetBalancer) cfg.Restrict = v.GetBool(cfgMultinetRestrict) cfg.FallbackDelay = v.GetDuration(cfgMultinetFallbackDelay) cfg.Subnets = make([]internalnet.Subnet, 0, 5) cfg.EventHandler = internalnet.NewLogEventHandler(logger) for i := 0; ; i++ { key := cfgMultinetSubnets + "." + strconv.Itoa(i) + "." subnet := internalnet.Subnet{} subnet.Prefix = v.GetString(key + "mask") if subnet.Prefix == "" { break } subnet.SourceIPs = v.GetStringSlice(key + "source_ips") cfg.Subnets = append(cfg.Subnets, subnet) } return } func newSettings() *viper.Viper { v := viper.New() v.AutomaticEnv() v.SetEnvPrefix(envPrefix) v.SetConfigType("yaml") v.SetEnvKeyReplacer(strings.NewReplacer(".", "_")) v.AllowEmptyEnv(true) // flags setup: flags := pflag.NewFlagSet("commandline", pflag.ExitOnError) flags.SetOutput(os.Stdout) flags.SortFlags = false flags.Bool(cmdPProf, false, "enable pprof") flags.Bool(cmdMetrics, false, "enable prometheus metrics") help := flags.BoolP(cmdHelp, "h", false, "show help") versionFlag := flags.BoolP(cmdVersion, "v", false, "show version") flags.StringP(cmdWallet, "w", "", `path to the wallet`) flags.String(cmdAddress, "", `address of wallet account`) flags.StringArray(cmdConfig, nil, "config paths") flags.String(cmdConfigDir, "", "config dir path") flags.Duration(cfgHealthcheckTimeout, defaultHealthcheckTimeout, "set timeout to check node health during rebalance") flags.Duration(cfgConnectTimeout, defaultConnectTimeout, "set timeout to connect to FrostFS nodes") flags.Duration(cfgRebalanceInterval, defaultRebalanceInterval, "set rebalance interval") flags.Int(cfgMaxClientsCount, defaultMaxClientsCount, "set max-clients count") flags.Duration(cfgMaxClientsDeadline, defaultMaxClientsDeadline, "set max-clients deadline") flags.String(cmdListenAddress, "0.0.0.0:8080", "set the main address to listen") flags.String(cfgTLSCertFile, "", "TLS certificate file to use") flags.String(cfgTLSKeyFile, "", "TLS key file to use") peers := flags.StringArrayP(cfgPeers, "p", nil, "set FrostFS nodes") flags.StringP(cfgRPCEndpoint, "r", "", "set RPC endpoint") resolveMethods := flags.StringSlice(cfgResolveOrder, []string{resolver.DNSResolver}, "set bucket name resolve order") domains := flags.StringSliceP(cfgListenDomains, "d", nil, "set domains to be listened") // set defaults: v.SetDefault(cfgAccessBoxCacheRemovingCheckInterval, defaultAccessBoxCacheRemovingCheckInterval) // logger: v.SetDefault(cfgLoggerLevel, "debug") v.SetDefault(cfgLoggerDestination, "stdout") v.SetDefault(cfgLoggerSamplingEnabled, false) v.SetDefault(cfgLoggerSamplingThereafter, 100) v.SetDefault(cfgLoggerSamplingInitial, 100) v.SetDefault(cfgLoggerSamplingInterval, defaultLoggerSamplerInterval) // http logger v.SetDefault(cfgHTTPLoggingEnabled, false) v.SetDefault(cfgHTTPLoggingMaxBody, 1024) v.SetDefault(cfgHTTPLoggingMaxLogSize, 50) v.SetDefault(cfgHTTPLoggingDestination, "stdout") v.SetDefault(cfgHTTPLoggingGzip, false) v.SetDefault(cfgHTTPLoggingLogResponse, true) // pool: v.SetDefault(cfgPoolErrorThreshold, defaultPoolErrorThreshold) v.SetDefault(cfgStreamTimeout, defaultStreamTimeout) v.SetDefault(cfgPProfAddress, "localhost:8085") v.SetDefault(cfgPrometheusAddress, "localhost:8086") // frostfs v.SetDefault(cfgBufferMaxSizeForPut, 1024*1024) // 1mb // kludge v.SetDefault(cfgKludgeUseDefaultXMLNS, false) v.SetDefault(cfgKludgeBypassContentEncodingCheckInChunks, false) v.SetDefault(cfgKludgeDefaultNamespaces, defaultDefaultNamespaces) // web v.SetDefault(cfgWebReadHeaderTimeout, defaultReadHeaderTimeout) v.SetDefault(cfgWebIdleTimeout, defaultIdleTimeout) // frostfsid v.SetDefault(cfgFrostfsIDContract, "frostfsid.frostfs") // policy v.SetDefault(cfgPolicyContract, "policy.frostfs") // proxy v.SetDefault(cfgProxyContract, "proxy.frostfs") // resolve v.SetDefault(cfgResolveNamespaceHeader, defaultNamespaceHeader) // retry v.SetDefault(cfgRetryMaxAttempts, defaultRetryMaxAttempts) v.SetDefault(cfgRetryMaxBackoff, defaultRetryMaxBackoff) // vhs v.SetDefault(cfgVHSHeader, defaultVHSHeader) v.SetDefault(cfgServernameHeader, defaultServernameHeader) // multinet v.SetDefault(cfgMultinetFallbackDelay, defaultMultinetFallbackDelay) // Bind flags if err := bindFlags(v, flags); err != nil { panic(fmt.Errorf("bind flags: %w", err)) } if err := flags.Parse(os.Args); err != nil { panic(err) } if v.IsSet(cfgServer+".0."+cfgTLSKeyFile) && v.IsSet(cfgServer+".0."+cfgTLSCertFile) { v.Set(cfgServer+".0."+cfgTLSEnabled, true) } if resolveMethods != nil { v.SetDefault(cfgResolveOrder, *resolveMethods) } if peers != nil && len(*peers) > 0 { for i := range *peers { v.SetDefault(cfgPeers+"."+strconv.Itoa(i)+".address", (*peers)[i]) v.SetDefault(cfgPeers+"."+strconv.Itoa(i)+".weight", 1) v.SetDefault(cfgPeers+"."+strconv.Itoa(i)+".priority", 1) } } if domains != nil && len(*domains) > 0 { v.SetDefault(cfgListenDomains, *domains) } switch { case help != nil && *help: fmt.Printf("FrostFS S3 gateway %s\n", version.Version) flags.PrintDefaults() fmt.Println() fmt.Println("Default environments:") fmt.Println() keys := v.AllKeys() sort.Strings(keys) for i := range keys { if _, ok := ignore[keys[i]]; ok { continue } defaultValue := v.GetString(keys[i]) if len(defaultValue) == 0 { continue } k := strings.Replace(keys[i], ".", "_", -1) fmt.Printf("%s_%s = %s\n", envPrefix, strings.ToUpper(k), defaultValue) } fmt.Println() fmt.Println("Peers preset:") fmt.Println() fmt.Printf("%s_%s_[N]_ADDRESS = string\n", envPrefix, strings.ToUpper(cfgPeers)) fmt.Printf("%s_%s_[N]_WEIGHT = 0..1 (float)\n", envPrefix, strings.ToUpper(cfgPeers)) os.Exit(0) case versionFlag != nil && *versionFlag: fmt.Printf("FrostFS S3 Gateway\nVersion: %s\nGoVersion: %s\n", version.Version, runtime.Version()) os.Exit(0) } if err := readInConfig(v); err != nil { panic(err) } return v } func bindFlags(v *viper.Viper, flags *pflag.FlagSet) error { if err := v.BindPFlag(cfgPProfEnabled, flags.Lookup(cmdPProf)); err != nil { return err } if err := v.BindPFlag(cfgPrometheusEnabled, flags.Lookup(cmdMetrics)); err != nil { return err } if err := v.BindPFlag(cmdConfig, flags.Lookup(cmdConfig)); err != nil { return err } if err := v.BindPFlag(cmdConfigDir, flags.Lookup(cmdConfigDir)); err != nil { return err } if err := v.BindPFlag(cfgWalletPath, flags.Lookup(cmdWallet)); err != nil { return err } if err := v.BindPFlag(cfgWalletAddress, flags.Lookup(cmdAddress)); err != nil { return err } if err := v.BindPFlag(cfgHealthcheckTimeout, flags.Lookup(cfgHealthcheckTimeout)); err != nil { return err } if err := v.BindPFlag(cfgConnectTimeout, flags.Lookup(cfgConnectTimeout)); err != nil { return err } if err := v.BindPFlag(cfgRebalanceInterval, flags.Lookup(cfgRebalanceInterval)); err != nil { return err } if err := v.BindPFlag(cfgMaxClientsCount, flags.Lookup(cfgMaxClientsCount)); err != nil { return err } if err := v.BindPFlag(cfgMaxClientsDeadline, flags.Lookup(cfgMaxClientsDeadline)); err != nil { return err } if err := v.BindPFlag(cfgRPCEndpoint, flags.Lookup(cfgRPCEndpoint)); err != nil { return err } if err := v.BindPFlag(cfgServer+".0.address", flags.Lookup(cmdListenAddress)); err != nil { return err } if err := v.BindPFlag(cfgServer+".0."+cfgTLSKeyFile, flags.Lookup(cfgTLSKeyFile)); err != nil { return err } return v.BindPFlag(cfgServer+".0."+cfgTLSCertFile, flags.Lookup(cfgTLSCertFile)) } func readInConfig(v *viper.Viper) error { if v.IsSet(cmdConfig) { if err := readConfig(v); err != nil { return err } } if v.IsSet(cmdConfigDir) { if err := readConfigDir(v); err != nil { return err } } return nil } func readConfigDir(v *viper.Viper) error { cfgSubConfigDir := v.GetString(cmdConfigDir) entries, err := os.ReadDir(cfgSubConfigDir) if err != nil { return err } for _, entry := range entries { if entry.IsDir() { continue } ext := path.Ext(entry.Name()) if ext != ".yaml" && ext != ".yml" { continue } if err = mergeConfig(v, path.Join(cfgSubConfigDir, entry.Name())); err != nil { return err } } return nil } func readConfig(v *viper.Viper) error { for _, fileName := range v.GetStringSlice(cmdConfig) { if err := mergeConfig(v, fileName); err != nil { return err } } return nil } func mergeConfig(v *viper.Viper, fileName string) error { cfgFile, err := os.Open(fileName) if err != nil { return err } defer func() { if errClose := cfgFile.Close(); errClose != nil { panic(errClose) } }() return v.MergeConfig(cfgFile) } func pickLogger(v *viper.Viper) *Logger { lvl, err := getLogLevel(v) if err != nil { panic(err) } dest := v.GetString(cfgLoggerDestination) switch dest { case destinationStdout: return newStdoutLogger(v, lvl) case destinationJournald: return newJournaldLogger(v, lvl) default: panic(fmt.Sprintf("wrong destination for logger: %s", dest)) } } // newStdoutLogger constructs a Logger instance for the current application. // Panics on failure. // // Logger contains a logger is built from zap's production logging configuration with: // - parameterized level (debug by default) // - console encoding // - ISO8601 time encoding // - sampling intervals // // and atomic log level to dynamically change it. // // Logger records a stack trace for all messages at or above fatal level. // // See also zapcore.Level, zap.NewProductionConfig, zap.AddStacktrace. func newStdoutLogger(v *viper.Viper, lvl zapcore.Level) *Logger { stdout := zapcore.AddSync(os.Stderr) level := zap.NewAtomicLevelAt(lvl) consoleOutCore := zapcore.NewCore(newLogEncoder(), stdout, level) consoleOutCore = samplingEnabling(v, consoleOutCore) return &Logger{ logger: zap.New(consoleOutCore, zap.AddStacktrace(zap.NewAtomicLevelAt(zap.FatalLevel))), lvl: level, } } func newJournaldLogger(v *viper.Viper, lvl zapcore.Level) *Logger { level := zap.NewAtomicLevelAt(lvl) encoder := zapjournald.NewPartialEncoder(newLogEncoder(), zapjournald.SyslogFields) core := zapjournald.NewCore(level, encoder, &journald.Journal{}, zapjournald.SyslogFields) coreWithContext := core.With([]zapcore.Field{ zapjournald.SyslogFacility(zapjournald.LogDaemon), zapjournald.SyslogIdentifier(), zapjournald.SyslogPid(), }) coreWithContext = samplingEnabling(v, coreWithContext) l := zap.New(coreWithContext, zap.AddStacktrace(zap.NewAtomicLevelAt(zap.FatalLevel))) return &Logger{ logger: l, lvl: level, } } func newLogEncoder() zapcore.Encoder { c := zap.NewProductionEncoderConfig() c.EncodeTime = zapcore.ISO8601TimeEncoder return zapcore.NewConsoleEncoder(c) } func samplingEnabling(v *viper.Viper, core zapcore.Core) zapcore.Core { // Zap samples by logging the first cgfLoggerSamplingInitial entries with a given level // and message within the specified time interval. // In the above config, only the first cgfLoggerSamplingInitial log entries with the same level and message // are recorded in cfgLoggerSamplingInterval interval. Every other log entry will be dropped within the interval since // cfgLoggerSamplingThereafter is specified here. if v.GetBool(cfgLoggerSamplingEnabled) { core = zapcore.NewSamplerWithOptions( core, v.GetDuration(cfgLoggerSamplingInterval), v.GetInt(cfgLoggerSamplingInitial), v.GetInt(cfgLoggerSamplingThereafter), ) } return core } func getLogLevel(v *viper.Viper) (zapcore.Level, error) { var lvl zapcore.Level lvlStr := v.GetString(cfgLoggerLevel) err := lvl.UnmarshalText([]byte(lvlStr)) if err != nil { return lvl, fmt.Errorf("incorrect logger level configuration %s (%v), "+ "value should be one of %v", lvlStr, err, [...]zapcore.Level{ zapcore.DebugLevel, zapcore.InfoLevel, zapcore.WarnLevel, zapcore.ErrorLevel, zapcore.DPanicLevel, zapcore.PanicLevel, zapcore.FatalLevel, }) } return lvl, nil } func validateDomains(domains []string, log *zap.Logger) []string { validDomains := make([]string, 0, len(domains)) LOOP: for _, domain := range domains { domainParts := strings.Split(domain, ".") for _, part := range domainParts { if strings.ContainsAny(part, "<>") && part != wildcardPlaceholder { log.Warn(logs.WarnDomainContainsInvalidPlaceholder, zap.String("domain", domain)) continue LOOP } } validDomains = append(validDomains, domain) } return validDomains }