// Copyright (c) 2015-2021 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package cmd import ( "math" "net/http" "os" "runtime" "strconv" "strings" "sync" "time" "github.com/shirou/gopsutil/v3/mem" "github.com/minio/minio/internal/config/api" xioutil "github.com/minio/minio/internal/ioutil" "github.com/minio/minio/internal/logger" "github.com/minio/minio/internal/mcontext" ) type apiConfig struct { mu sync.RWMutex requestsDeadline time.Duration requestsPool chan struct{} clusterDeadline time.Duration listQuorum string corsAllowOrigins []string // total drives per erasure set across pools. totalDriveCount int replicationPriority string replicationMaxWorkers int transitionWorkers int staleUploadsExpiry time.Duration staleUploadsCleanupInterval time.Duration deleteCleanupInterval time.Duration enableODirect bool gzipObjects bool rootAccess bool syncEvents bool objectMaxVersions int64 } const ( cgroupV1MemLimitFile = "/sys/fs/cgroup/memory/memory.limit_in_bytes" cgroupV2MemLimitFile = "/sys/fs/cgroup/memory.max" cgroupMemNoLimit = 9223372036854771712 ) func cgroupMemLimit() (limit uint64) { buf, err := os.ReadFile(cgroupV2MemLimitFile) if err != nil { buf, err = os.ReadFile(cgroupV1MemLimitFile) } if err != nil { return 0 } limit, err = strconv.ParseUint(strings.TrimSpace(string(buf)), 10, 64) if err != nil { // The kernel can return valid but non integer values // but still, no need to interpret more return 0 } if limit == cgroupMemNoLimit { // No limit set, It's the highest positive signed 64-bit // integer (2^63-1), rounded down to multiples of 4096 (2^12), // the most common page size on x86 systems - for cgroup_limits. return 0 } return limit } func availableMemory() (available uint64) { available = 2048 * blockSizeV2 * 2 // Default to 4 GiB when we can't find the limits. if runtime.GOOS == "linux" { // Useful in container mode limit := cgroupMemLimit() if limit > 0 { // A valid value is found, return its 75% available = (limit * 3) / 4 return } } // for all other platforms limits are based on virtual memory. memStats, err := mem.VirtualMemory() if err != nil { return } // A valid value is available return its 75% available = (memStats.Available * 3) / 4 return } func (t *apiConfig) init(cfg api.Config, setDriveCounts []int) { t.mu.Lock() defer t.mu.Unlock() clusterDeadline := cfg.ClusterDeadline if clusterDeadline == 0 { clusterDeadline = 10 * time.Second } t.clusterDeadline = clusterDeadline corsAllowOrigin := cfg.CorsAllowOrigin if len(corsAllowOrigin) == 0 { corsAllowOrigin = []string{"*"} } t.corsAllowOrigins = corsAllowOrigin maxSetDrives := 0 for _, setDriveCount := range setDriveCounts { t.totalDriveCount += setDriveCount if setDriveCount > maxSetDrives { maxSetDrives = setDriveCount } } var apiRequestsMaxPerNode int if cfg.RequestsMax <= 0 { // Returns 75% of max memory allowed maxMem := availableMemory() // max requests per node is calculated as // total_ram / ram_per_request // ram_per_request is (2MiB+128KiB) * driveCount \ // + 2 * 10MiB (default erasure block size v1) + 2 * 1MiB (default erasure block size v2) blockSize := xioutil.LargeBlock + xioutil.SmallBlock apiRequestsMaxPerNode = int(maxMem / uint64(maxSetDrives*blockSize+int(blockSizeV1*2+blockSizeV2*2))) if globalIsDistErasure { logger.Info("Automatically configured API requests per node based on available memory on the system: %d", apiRequestsMaxPerNode) } } else { apiRequestsMaxPerNode = cfg.RequestsMax if n := totalNodeCount(); n > 0 { apiRequestsMaxPerNode /= n } } if cap(t.requestsPool) != apiRequestsMaxPerNode { // Only replace if needed. // Existing requests will use the previous limit, // but new requests will use the new limit. // There will be a short overlap window, // but this shouldn't last long. t.requestsPool = make(chan struct{}, apiRequestsMaxPerNode) } t.requestsDeadline = cfg.RequestsDeadline listQuorum := cfg.ListQuorum if listQuorum == "" { listQuorum = "strict" } t.listQuorum = listQuorum if globalReplicationPool != nil && (cfg.ReplicationPriority != t.replicationPriority || cfg.ReplicationMaxWorkers != t.replicationMaxWorkers) { globalReplicationPool.ResizeWorkerPriority(cfg.ReplicationPriority, cfg.ReplicationMaxWorkers) } t.replicationPriority = cfg.ReplicationPriority t.replicationMaxWorkers = cfg.ReplicationMaxWorkers // N B api.transition_workers will be deprecated if globalTransitionState != nil { globalTransitionState.UpdateWorkers(cfg.TransitionWorkers) } t.transitionWorkers = cfg.TransitionWorkers t.staleUploadsExpiry = cfg.StaleUploadsExpiry t.staleUploadsCleanupInterval = cfg.StaleUploadsCleanupInterval t.deleteCleanupInterval = cfg.DeleteCleanupInterval t.enableODirect = cfg.EnableODirect t.gzipObjects = cfg.GzipObjects t.rootAccess = cfg.RootAccess t.syncEvents = cfg.SyncEvents t.objectMaxVersions = cfg.ObjectMaxVersions } func (t *apiConfig) odirectEnabled() bool { t.mu.RLock() defer t.mu.RUnlock() return t.enableODirect } func (t *apiConfig) shouldGzipObjects() bool { t.mu.RLock() defer t.mu.RUnlock() return t.gzipObjects } func (t *apiConfig) permitRootAccess() bool { t.mu.RLock() defer t.mu.RUnlock() return t.rootAccess } func (t *apiConfig) getListQuorum() string { t.mu.RLock() defer t.mu.RUnlock() if t.listQuorum == "" { return "strict" } return t.listQuorum } func (t *apiConfig) getCorsAllowOrigins() []string { t.mu.RLock() defer t.mu.RUnlock() if len(t.corsAllowOrigins) == 0 { return []string{"*"} } corsAllowOrigins := make([]string, len(t.corsAllowOrigins)) copy(corsAllowOrigins, t.corsAllowOrigins) return corsAllowOrigins } func (t *apiConfig) getStaleUploadsCleanupInterval() time.Duration { t.mu.RLock() defer t.mu.RUnlock() if t.staleUploadsCleanupInterval == 0 { return 6 * time.Hour // default 6 hours } return t.staleUploadsCleanupInterval } func (t *apiConfig) getStaleUploadsExpiry() time.Duration { t.mu.RLock() defer t.mu.RUnlock() if t.staleUploadsExpiry == 0 { return 24 * time.Hour // default 24 hours } return t.staleUploadsExpiry } func (t *apiConfig) getDeleteCleanupInterval() time.Duration { t.mu.RLock() defer t.mu.RUnlock() if t.deleteCleanupInterval == 0 { return 5 * time.Minute // every 5 minutes } return t.deleteCleanupInterval } func (t *apiConfig) getClusterDeadline() time.Duration { t.mu.RLock() defer t.mu.RUnlock() if t.clusterDeadline == 0 { return 10 * time.Second } return t.clusterDeadline } func (t *apiConfig) getRequestsPoolCapacity() int { t.mu.RLock() defer t.mu.RUnlock() return cap(t.requestsPool) } func (t *apiConfig) getRequestsPool() (chan struct{}, time.Duration) { t.mu.RLock() defer t.mu.RUnlock() if t.requestsPool == nil { return nil, 10 * time.Second } if t.requestsDeadline <= 0 { return t.requestsPool, 10 * time.Second } return t.requestsPool, t.requestsDeadline } // maxClients throttles the S3 API calls func maxClients(f http.HandlerFunc) http.HandlerFunc { return func(w http.ResponseWriter, r *http.Request) { globalHTTPStats.incS3RequestsIncoming() if r.Header.Get(globalObjectPerfUserMetadata) == "" { if val := globalServiceFreeze.Load(); val != nil { if unlock, ok := val.(chan struct{}); ok && unlock != nil { // Wait until unfrozen. select { case <-unlock: case <-r.Context().Done(): // if client canceled we don't need to wait here forever. return } } } } pool, deadline := globalAPIConfig.getRequestsPool() if pool == nil { f.ServeHTTP(w, r) return } globalHTTPStats.addRequestsInQueue(1) if tc, ok := r.Context().Value(mcontext.ContextTraceKey).(*mcontext.TraceCtxt); ok { tc.FuncName = "s3.MaxClients" } deadlineTimer := time.NewTimer(deadline) defer deadlineTimer.Stop() select { case pool <- struct{}{}: defer func() { <-pool }() globalHTTPStats.addRequestsInQueue(-1) f.ServeHTTP(w, r) case <-deadlineTimer.C: // Send a http timeout message writeErrorResponse(r.Context(), w, errorCodes.ToAPIErr(ErrTooManyRequests), r.URL) globalHTTPStats.addRequestsInQueue(-1) return case <-r.Context().Done(): // When the client disconnects before getting the S3 handler // status code response, set the status code to 499 so this request // will be properly audited and traced. w.WriteHeader(499) globalHTTPStats.addRequestsInQueue(-1) return } } } func (t *apiConfig) getReplicationOpts() replicationPoolOpts { t.mu.RLock() defer t.mu.RUnlock() if t.replicationPriority == "" { return replicationPoolOpts{ Priority: "auto", MaxWorkers: WorkerMaxLimit, } } return replicationPoolOpts{ Priority: t.replicationPriority, MaxWorkers: t.replicationMaxWorkers, } } func (t *apiConfig) getTransitionWorkers() int { t.mu.RLock() defer t.mu.RUnlock() if t.transitionWorkers <= 0 { return runtime.GOMAXPROCS(0) / 2 } return t.transitionWorkers } func (t *apiConfig) isSyncEventsEnabled() bool { t.mu.RLock() defer t.mu.RUnlock() return t.syncEvents } func (t *apiConfig) getObjectMaxVersions() int64 { t.mu.RLock() defer t.mu.RUnlock() if t.objectMaxVersions <= 0 { // defaults to 'IntMax' when unset. return math.MaxInt64 } return t.objectMaxVersions }