// Copyright (c) 2015-2023 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 http import ( "bytes" "context" "encoding/json" "errors" "fmt" "math" "net/http" "net/url" "os" "path/filepath" "sync" "sync/atomic" "time" xhttp "github.com/minio/minio/internal/http" "github.com/minio/minio/internal/logger/target/types" "github.com/minio/minio/internal/once" "github.com/minio/minio/internal/store" xnet "github.com/minio/pkg/net" ) const ( // Timeout for the webhook http call webhookCallTimeout = 5 * time.Second // maxWorkers is the maximum number of concurrent operations. maxWorkers = 16 // the suffix for the configured queue dir where the logs will be persisted. httpLoggerExtension = ".http.log" ) const ( statusOffline = iota statusOnline statusClosed ) // Config http logger target type Config struct { Enabled bool `json:"enabled"` Name string `json:"name"` UserAgent string `json:"userAgent"` Endpoint string `json:"endpoint"` AuthToken string `json:"authToken"` ClientCert string `json:"clientCert"` ClientKey string `json:"clientKey"` QueueSize int `json:"queueSize"` QueueDir string `json:"queueDir"` Proxy string `json:"string"` Transport http.RoundTripper `json:"-"` // Custom logger LogOnce func(ctx context.Context, err error, id string, errKind ...interface{}) `json:"-"` } // Target implements logger.Target and sends the json // format of a log entry to the configured http endpoint. // An internal buffer of logs is maintained but when the // buffer is full, new logs are just ignored and an error // is returned to the caller. type Target struct { totalMessages int64 failedMessages int64 status int32 // Worker control workers int64 workerStartMu sync.Mutex lastStarted time.Time wg sync.WaitGroup // Channel of log entries. // Reading logCh must hold read lock on logChMu (to avoid read race) // Sending a value on logCh must hold read lock on logChMu (to avoid closing) logCh chan interface{} logChMu sync.RWMutex // If the first init fails, this starts a goroutine that // will attempt to establish the connection. revive sync.Once // store to persist and replay the logs to the target // to avoid missing events when the target is down. store store.Store[interface{}] storeCtxCancel context.CancelFunc initQueueStoreOnce once.Init config Config client *http.Client } // Name returns the name of the target func (h *Target) Name() string { return "minio-http-" + h.config.Name } // Endpoint returns the backend endpoint func (h *Target) Endpoint() string { return h.config.Endpoint } func (h *Target) String() string { return h.config.Name } // IsOnline returns true if the target is reachable. func (h *Target) IsOnline(ctx context.Context) bool { if err := h.checkAlive(ctx); err != nil { return !xnet.IsNetworkOrHostDown(err, false) } return true } // Stats returns the target statistics. func (h *Target) Stats() types.TargetStats { h.logChMu.RLock() queueLength := len(h.logCh) h.logChMu.RUnlock() stats := types.TargetStats{ TotalMessages: atomic.LoadInt64(&h.totalMessages), FailedMessages: atomic.LoadInt64(&h.failedMessages), QueueLength: queueLength, } return stats } // This will check if we can reach the remote. func (h *Target) checkAlive(ctx context.Context) (err error) { return h.send(ctx, []byte(`{}`), webhookCallTimeout) } // Init validate and initialize the http target func (h *Target) Init(ctx context.Context) (err error) { if h.config.QueueDir != "" { return h.initQueueStoreOnce.DoWithContext(ctx, h.initQueueStore) } return h.initLogChannel(ctx) } func (h *Target) initQueueStore(ctx context.Context) (err error) { var queueStore store.Store[interface{}] queueDir := filepath.Join(h.config.QueueDir, h.Name()) queueStore = store.NewQueueStore[interface{}](queueDir, uint64(h.config.QueueSize), httpLoggerExtension) if err = queueStore.Open(); err != nil { return fmt.Errorf("unable to initialize the queue store of %s webhook: %w", h.Name(), err) } ctx, cancel := context.WithCancel(ctx) h.store = queueStore h.storeCtxCancel = cancel store.StreamItems(h.store, h, ctx.Done(), h.config.LogOnce) return } func (h *Target) initLogChannel(ctx context.Context) (err error) { switch atomic.LoadInt32(&h.status) { case statusOnline: return nil case statusClosed: return errors.New("target is closed") } if !h.IsOnline(ctx) { // Start a goroutine that will continue to check if we can reach h.revive.Do(func() { go func() { t := time.NewTicker(time.Second) defer t.Stop() for range t.C { if atomic.LoadInt32(&h.status) != statusOffline { return } if h.IsOnline(ctx) { // We are online. if atomic.CompareAndSwapInt32(&h.status, statusOffline, statusOnline) { h.workerStartMu.Lock() h.lastStarted = time.Now() h.workerStartMu.Unlock() atomic.AddInt64(&h.workers, 1) go h.startHTTPLogger(ctx) } return } } }() }) return err } if atomic.CompareAndSwapInt32(&h.status, statusOffline, statusOnline) { h.workerStartMu.Lock() h.lastStarted = time.Now() h.workerStartMu.Unlock() atomic.AddInt64(&h.workers, 1) go h.startHTTPLogger(ctx) } return nil } func (h *Target) send(ctx context.Context, payload []byte, timeout time.Duration) (err error) { ctx, cancel := context.WithTimeout(ctx, timeout) defer cancel() req, err := http.NewRequestWithContext(ctx, http.MethodPost, h.config.Endpoint, bytes.NewReader(payload)) if err != nil { return fmt.Errorf("invalid configuration for '%s'; %v", h.config.Endpoint, err) } req.Header.Set(xhttp.ContentType, "application/json") req.Header.Set(xhttp.MinIOVersion, xhttp.GlobalMinIOVersion) req.Header.Set(xhttp.MinioDeploymentID, xhttp.GlobalDeploymentID) // Set user-agent to indicate MinIO release // version to the configured log endpoint req.Header.Set("User-Agent", h.config.UserAgent) if h.config.AuthToken != "" { req.Header.Set("Authorization", h.config.AuthToken) } resp, err := h.client.Do(req) if err != nil { return fmt.Errorf("%s returned '%w', please check your endpoint configuration", h.config.Endpoint, err) } // Drain any response. xhttp.DrainBody(resp.Body) switch resp.StatusCode { case http.StatusOK, http.StatusCreated, http.StatusAccepted, http.StatusNoContent: // accepted HTTP status codes. return nil case http.StatusForbidden: return fmt.Errorf("%s returned '%s', please check if your auth token is correctly set", h.config.Endpoint, resp.Status) default: return fmt.Errorf("%s returned '%s', please check your endpoint configuration", h.config.Endpoint, resp.Status) } } func (h *Target) logEntry(ctx context.Context, entry interface{}) { logJSON, err := json.Marshal(&entry) if err != nil { atomic.AddInt64(&h.failedMessages, 1) return } tries := 0 for { if tries > 0 { if tries >= 10 || atomic.LoadInt32(&h.status) == statusClosed { // Don't retry when closing... return } // sleep = (tries+2) ^ 2 milliseconds. sleep := time.Duration(math.Pow(float64(tries+2), 2)) * time.Millisecond if sleep > time.Second { sleep = time.Second } time.Sleep(sleep) } tries++ if err := h.send(ctx, logJSON, webhookCallTimeout); err != nil { h.config.LogOnce(ctx, err, h.config.Endpoint) atomic.AddInt64(&h.failedMessages, 1) } else { return } } } func (h *Target) startHTTPLogger(ctx context.Context) { h.logChMu.RLock() logCh := h.logCh if logCh != nil { // We are not allowed to add when logCh is nil h.wg.Add(1) defer h.wg.Done() } h.logChMu.RUnlock() defer atomic.AddInt64(&h.workers, -1) if logCh == nil { return } // Send messages until channel is closed. for entry := range logCh { atomic.AddInt64(&h.totalMessages, 1) h.logEntry(ctx, entry) } } // New initializes a new logger target which // sends log over http to the specified endpoint func New(config Config) *Target { h := &Target{ logCh: make(chan interface{}, config.QueueSize), config: config, status: statusOffline, } // If proxy available, set the same if h.config.Proxy != "" { proxyURL, _ := url.Parse(h.config.Proxy) transport := h.config.Transport ctransport := transport.(*http.Transport).Clone() ctransport.Proxy = http.ProxyURL(proxyURL) h.config.Transport = ctransport } h.client = &http.Client{Transport: h.config.Transport} return h } // SendFromStore - reads the log from store and sends it to webhook. func (h *Target) SendFromStore(key string) (err error) { var eventData interface{} eventData, err = h.store.Get(key) if err != nil { if os.IsNotExist(err) { return nil } return err } atomic.AddInt64(&h.totalMessages, 1) logJSON, err := json.Marshal(&eventData) if err != nil { atomic.AddInt64(&h.failedMessages, 1) return } if err := h.send(context.Background(), logJSON, webhookCallTimeout); err != nil { atomic.AddInt64(&h.failedMessages, 1) if xnet.IsNetworkOrHostDown(err, true) { return store.ErrNotConnected } return err } // Delete the event from store. return h.store.Del(key) } // Send log message 'e' to http target. // If servers are offline messages are queued until queue is full. // If Cancel has been called the message is ignored. func (h *Target) Send(ctx context.Context, entry interface{}) error { if h.store != nil { // save the entry to the queue store which will be replayed to the target. return h.store.Put(entry) } if atomic.LoadInt32(&h.status) == statusClosed { return nil } h.logChMu.RLock() defer h.logChMu.RUnlock() if h.logCh == nil { // We are closing... return nil } select { case h.logCh <- entry: default: // Drop messages until we are online. if !h.IsOnline(ctx) { atomic.AddInt64(&h.totalMessages, 1) atomic.AddInt64(&h.failedMessages, 1) return errors.New("log buffer full and remote offline") } nWorkers := atomic.LoadInt64(&h.workers) if nWorkers < maxWorkers { // Only have one try to start at the same time. h.workerStartMu.Lock() defer h.workerStartMu.Unlock() // Start one max every second. if time.Since(h.lastStarted) > time.Second { if atomic.CompareAndSwapInt64(&h.workers, nWorkers, nWorkers+1) { // Start another logger. h.lastStarted = time.Now() go h.startHTTPLogger(ctx) } } h.logCh <- entry return nil } // log channel is full, do not wait and return // an error immediately to the caller atomic.AddInt64(&h.totalMessages, 1) atomic.AddInt64(&h.failedMessages, 1) return errors.New("log buffer full, remote endpoint is not able to keep up") } return nil } // Cancel - cancels the target. // All queued messages are flushed and the function returns afterwards. // All messages sent to the target after this function has been called will be dropped. func (h *Target) Cancel() { atomic.StoreInt32(&h.status, statusClosed) // If queuestore is configured, cancel it's context to // stop the replay go-routine. if h.store != nil { h.storeCtxCancel() } // Set logch to nil and close it. // This will block all Send operations, // and finish the existing ones. // All future ones will be discarded. h.logChMu.Lock() close(h.logCh) h.logCh = nil h.logChMu.Unlock() // Wait for messages to be sent... h.wg.Wait() } // Type - returns type of the target func (h *Target) Type() types.TargetType { return types.TargetHTTP }