// 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 ( "context" crand "crypto/rand" "crypto/subtle" "crypto/tls" "encoding/json" "fmt" "hash/crc32" "io" "math/rand" "net/http" "net/url" "os" "path" "regexp" "runtime" "sort" "strconv" "strings" "time" "github.com/dustin/go-humanize" "github.com/gorilla/mux" "github.com/klauspost/compress/zip" "github.com/minio/madmin-go" "github.com/minio/minio/internal/dsync" "github.com/minio/minio/internal/handlers" xhttp "github.com/minio/minio/internal/http" "github.com/minio/minio/internal/kms" "github.com/minio/minio/internal/logger" "github.com/minio/minio/internal/logger/message/log" iampolicy "github.com/minio/pkg/iam/policy" xnet "github.com/minio/pkg/net" "github.com/secure-io/sio-go" ) const ( maxEConfigJSONSize = 262272 ) // Only valid query params for mgmt admin APIs. const ( mgmtBucket = "bucket" mgmtPrefix = "prefix" mgmtClientToken = "clientToken" mgmtForceStart = "forceStart" mgmtForceStop = "forceStop" ) func updateServer(u *url.URL, sha256Sum []byte, lrTime time.Time, releaseInfo string, mode string) (us madmin.ServerUpdateStatus, err error) { if err = doUpdate(u, lrTime, sha256Sum, releaseInfo, mode); err != nil { return us, err } us.CurrentVersion = Version us.UpdatedVersion = lrTime.Format(minioReleaseTagTimeLayout) return us, nil } // ServerUpdateHandler - POST /minio/admin/v3/update?updateURL={updateURL} // ---------- // updates all minio servers and restarts them gracefully. func (a adminAPIHandlers) ServerUpdateHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "ServerUpdate") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.ServerUpdateAdminAction) if objectAPI == nil { return } if globalInplaceUpdateDisabled { // if MINIO_UPDATE=off - inplace update is disabled, mostly in containers. writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrMethodNotAllowed), r.URL) return } vars := mux.Vars(r) updateURL := vars["updateURL"] mode := getMinioMode() if updateURL == "" { updateURL = minioReleaseInfoURL if runtime.GOOS == globalWindowsOSName { updateURL = minioReleaseWindowsInfoURL } } u, err := url.Parse(updateURL) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } content, err := downloadReleaseURL(u, updateTimeout, mode) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } sha256Sum, lrTime, releaseInfo, err := parseReleaseData(content) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } u.Path = path.Dir(u.Path) + SlashSeparator + releaseInfo crTime, err := GetCurrentReleaseTime() if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } if lrTime.Sub(crTime) <= 0 { updateStatus := madmin.ServerUpdateStatus{ CurrentVersion: Version, UpdatedVersion: Version, } // Marshal API response jsonBytes, err := json.Marshal(updateStatus) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } writeSuccessResponseJSON(w, jsonBytes) return } for _, nerr := range globalNotificationSys.ServerUpdate(ctx, u, sha256Sum, lrTime, releaseInfo) { if nerr.Err != nil { err := AdminError{ Code: AdminUpdateApplyFailure, Message: nerr.Err.Error(), StatusCode: http.StatusInternalServerError, } logger.GetReqInfo(ctx).SetTags("peerAddress", nerr.Host.String()) logger.LogIf(ctx, fmt.Errorf("server update failed with %w", err)) writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } } updateStatus, err := updateServer(u, sha256Sum, lrTime, releaseInfo, mode) if err != nil { logger.LogIf(ctx, fmt.Errorf("server update failed with %w", err)) writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } // Marshal API response jsonBytes, err := json.Marshal(updateStatus) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } writeSuccessResponseJSON(w, jsonBytes) // Notify all other MinIO peers signal service. for _, nerr := range globalNotificationSys.SignalService(serviceRestart) { if nerr.Err != nil { logger.GetReqInfo(ctx).SetTags("peerAddress", nerr.Host.String()) logger.LogIf(ctx, nerr.Err) } } globalServiceSignalCh <- serviceRestart } // ServiceHandler - POST /minio/admin/v3/service?action={action} // ---------- // restarts/stops minio server gracefully. In a distributed setup, func (a adminAPIHandlers) ServiceHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "Service") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) vars := mux.Vars(r) action := vars["action"] var serviceSig serviceSignal switch madmin.ServiceAction(action) { case madmin.ServiceActionRestart: serviceSig = serviceRestart case madmin.ServiceActionStop: serviceSig = serviceStop default: logger.LogIf(ctx, fmt.Errorf("Unrecognized service action %s requested", action), logger.Application) writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrMalformedPOSTRequest), r.URL) return } var objectAPI ObjectLayer switch serviceSig { case serviceRestart: objectAPI, _ = validateAdminReq(ctx, w, r, iampolicy.ServiceRestartAdminAction) case serviceStop: objectAPI, _ = validateAdminReq(ctx, w, r, iampolicy.ServiceStopAdminAction) } if objectAPI == nil { return } // Notify all other MinIO peers signal service. for _, nerr := range globalNotificationSys.SignalService(serviceSig) { if nerr.Err != nil { logger.GetReqInfo(ctx).SetTags("peerAddress", nerr.Host.String()) logger.LogIf(ctx, nerr.Err) } } // Reply to the client before restarting, stopping MinIO server. writeSuccessResponseHeadersOnly(w) globalServiceSignalCh <- serviceSig } // ServerProperties holds some server information such as, version, region // uptime, etc.. type ServerProperties struct { Uptime int64 `json:"uptime"` Version string `json:"version"` CommitID string `json:"commitID"` DeploymentID string `json:"deploymentID"` Region string `json:"region"` SQSARN []string `json:"sqsARN"` } // ServerConnStats holds transferred bytes from/to the server type ServerConnStats struct { TotalInputBytes uint64 `json:"transferred"` TotalOutputBytes uint64 `json:"received"` Throughput uint64 `json:"throughput,omitempty"` S3InputBytes uint64 `json:"transferredS3"` S3OutputBytes uint64 `json:"receivedS3"` } // ServerHTTPAPIStats holds total number of HTTP operations from/to the server, // including the average duration the call was spent. type ServerHTTPAPIStats struct { APIStats map[string]int `json:"apiStats"` } // ServerHTTPStats holds all type of http operations performed to/from the server // including their average execution time. type ServerHTTPStats struct { S3RequestsInQueue int32 `json:"s3RequestsInQueue"` CurrentS3Requests ServerHTTPAPIStats `json:"currentS3Requests"` TotalS3Requests ServerHTTPAPIStats `json:"totalS3Requests"` TotalS3Errors ServerHTTPAPIStats `json:"totalS3Errors"` TotalS3Canceled ServerHTTPAPIStats `json:"totalS3Canceled"` TotalS3RejectedAuth uint64 `json:"totalS3RejectedAuth"` TotalS3RejectedTime uint64 `json:"totalS3RejectedTime"` TotalS3RejectedHeader uint64 `json:"totalS3RejectedHeader"` TotalS3RejectedInvalid uint64 `json:"totalS3RejectedInvalid"` } // StorageInfoHandler - GET /minio/admin/v3/storageinfo // ---------- // Get server information func (a adminAPIHandlers) StorageInfoHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "StorageInfo") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.StorageInfoAdminAction) if objectAPI == nil { return } // ignores any errors here. storageInfo, _ := objectAPI.StorageInfo(ctx) // Collect any disk healing. healing, _ := getAggregatedBackgroundHealState(ctx, nil) healDisks := make(map[string]struct{}, len(healing.HealDisks)) for _, disk := range healing.HealDisks { healDisks[disk] = struct{}{} } // find all disks which belong to each respective endpoints for i, disk := range storageInfo.Disks { if _, ok := healDisks[disk.Endpoint]; ok { storageInfo.Disks[i].Healing = true } } // Marshal API response jsonBytes, err := json.Marshal(storageInfo) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } // Reply with storage information (across nodes in a // distributed setup) as json. writeSuccessResponseJSON(w, jsonBytes) } // DataUsageInfoHandler - GET /minio/admin/v3/datausage // ---------- // Get server/cluster data usage info func (a adminAPIHandlers) DataUsageInfoHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "DataUsageInfo") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.DataUsageInfoAdminAction) if objectAPI == nil { return } dataUsageInfo, err := loadDataUsageFromBackend(ctx, objectAPI) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } dataUsageInfoJSON, err := json.Marshal(dataUsageInfo) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } writeSuccessResponseJSON(w, dataUsageInfoJSON) } func lriToLockEntry(l lockRequesterInfo, resource, server string) *madmin.LockEntry { entry := &madmin.LockEntry{ Timestamp: l.Timestamp, Resource: resource, ServerList: []string{server}, Source: l.Source, Owner: l.Owner, ID: l.UID, Quorum: l.Quorum, } if l.Writer { entry.Type = "WRITE" } else { entry.Type = "READ" } return entry } func topLockEntries(peerLocks []*PeerLocks, stale bool) madmin.LockEntries { entryMap := make(map[string]*madmin.LockEntry) for _, peerLock := range peerLocks { if peerLock == nil { continue } for k, v := range peerLock.Locks { for _, lockReqInfo := range v { if val, ok := entryMap[lockReqInfo.Name]; ok { val.ServerList = append(val.ServerList, peerLock.Addr) } else { entryMap[lockReqInfo.Name] = lriToLockEntry(lockReqInfo, k, peerLock.Addr) } } } } var lockEntries madmin.LockEntries for _, v := range entryMap { if stale { lockEntries = append(lockEntries, *v) continue } if len(v.ServerList) >= v.Quorum { lockEntries = append(lockEntries, *v) } } sort.Sort(lockEntries) return lockEntries } // PeerLocks holds server information result of one node type PeerLocks struct { Addr string Locks map[string][]lockRequesterInfo } // ForceUnlockHandler force unlocks requested resource func (a adminAPIHandlers) ForceUnlockHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "ForceUnlock") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.ForceUnlockAdminAction) if objectAPI == nil { return } z, ok := objectAPI.(*erasureServerPools) if !ok { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrNotImplemented), r.URL) return } vars := mux.Vars(r) var args dsync.LockArgs var lockers []dsync.NetLocker for _, path := range strings.Split(vars["paths"], ",") { if path == "" { continue } args.Resources = append(args.Resources, path) } for _, lks := range z.serverPools[0].erasureLockers { lockers = append(lockers, lks...) } for _, locker := range lockers { locker.ForceUnlock(ctx, args) } } // TopLocksHandler Get list of locks in use func (a adminAPIHandlers) TopLocksHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "TopLocks") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.TopLocksAdminAction) if objectAPI == nil { return } count := 10 // by default list only top 10 entries if countStr := r.Form.Get("count"); countStr != "" { var err error count, err = strconv.Atoi(countStr) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } } stale := r.Form.Get("stale") == "true" // list also stale locks peerLocks := globalNotificationSys.GetLocks(ctx, r) topLocks := topLockEntries(peerLocks, stale) // Marshal API response upto requested count. if len(topLocks) > count && count > 0 { topLocks = topLocks[:count] } jsonBytes, err := json.Marshal(topLocks) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } // Reply with storage information (across nodes in a // distributed setup) as json. writeSuccessResponseJSON(w, jsonBytes) } // StartProfilingResult contains the status of the starting // profiling action in a given server type StartProfilingResult struct { NodeName string `json:"nodeName"` Success bool `json:"success"` Error string `json:"error"` } // StartProfilingHandler - POST /minio/admin/v3/profiling/start?profilerType={profilerType} // ---------- // Enable server profiling func (a adminAPIHandlers) StartProfilingHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "StartProfiling") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) // Validate request signature. _, adminAPIErr := checkAdminRequestAuth(ctx, r, iampolicy.ProfilingAdminAction, "") if adminAPIErr != ErrNone { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(adminAPIErr), r.URL) return } if globalNotificationSys == nil { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL) return } vars := mux.Vars(r) profiles := strings.Split(vars["profilerType"], ",") thisAddr, err := xnet.ParseHost(globalLocalNodeName) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } globalProfilerMu.Lock() defer globalProfilerMu.Unlock() if globalProfiler == nil { globalProfiler = make(map[string]minioProfiler, 10) } // Stop profiler of all types if already running for k, v := range globalProfiler { for _, p := range profiles { if p == k { v.Stop() delete(globalProfiler, k) } } } // Start profiling on remote servers. var hostErrs []NotificationPeerErr for _, profiler := range profiles { hostErrs = append(hostErrs, globalNotificationSys.StartProfiling(profiler)...) // Start profiling locally as well. prof, err := startProfiler(profiler) if err != nil { hostErrs = append(hostErrs, NotificationPeerErr{ Host: *thisAddr, Err: err, }) } else { globalProfiler[profiler] = prof hostErrs = append(hostErrs, NotificationPeerErr{ Host: *thisAddr, }) } } var startProfilingResult []StartProfilingResult for _, nerr := range hostErrs { result := StartProfilingResult{NodeName: nerr.Host.String()} if nerr.Err != nil { result.Error = nerr.Err.Error() } else { result.Success = true } startProfilingResult = append(startProfilingResult, result) } // Create JSON result and send it to the client startProfilingResultInBytes, err := json.Marshal(startProfilingResult) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } writeSuccessResponseJSON(w, startProfilingResultInBytes) } // dummyFileInfo represents a dummy representation of a profile data file // present only in memory, it helps to generate the zip stream. type dummyFileInfo struct { name string size int64 mode os.FileMode modTime time.Time isDir bool sys interface{} } func (f dummyFileInfo) Name() string { return f.name } func (f dummyFileInfo) Size() int64 { return f.size } func (f dummyFileInfo) Mode() os.FileMode { return f.mode } func (f dummyFileInfo) ModTime() time.Time { return f.modTime } func (f dummyFileInfo) IsDir() bool { return f.isDir } func (f dummyFileInfo) Sys() interface{} { return f.sys } // DownloadProfilingHandler - POST /minio/admin/v3/profiling/download // ---------- // Download profiling information of all nodes in a zip format func (a adminAPIHandlers) DownloadProfilingHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "DownloadProfiling") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) // Validate request signature. _, adminAPIErr := checkAdminRequestAuth(ctx, r, iampolicy.ProfilingAdminAction, "") if adminAPIErr != ErrNone { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(adminAPIErr), r.URL) return } if globalNotificationSys == nil { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrServerNotInitialized), r.URL) return } if !globalNotificationSys.DownloadProfilingData(ctx, w) { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrAdminProfilerNotEnabled), r.URL) return } } type healInitParams struct { bucket, objPrefix string hs madmin.HealOpts clientToken string forceStart, forceStop bool } // extractHealInitParams - Validates params for heal init API. func extractHealInitParams(vars map[string]string, qParms url.Values, r io.Reader) (hip healInitParams, err APIErrorCode) { hip.bucket = vars[mgmtBucket] hip.objPrefix = vars[mgmtPrefix] if hip.bucket == "" { if hip.objPrefix != "" { // Bucket is required if object-prefix is given err = ErrHealMissingBucket return } } else if isReservedOrInvalidBucket(hip.bucket, false) { err = ErrInvalidBucketName return } // empty prefix is valid. if !IsValidObjectPrefix(hip.objPrefix) { err = ErrInvalidObjectName return } if len(qParms[mgmtClientToken]) > 0 { hip.clientToken = qParms[mgmtClientToken][0] } if _, ok := qParms[mgmtForceStart]; ok { hip.forceStart = true } if _, ok := qParms[mgmtForceStop]; ok { hip.forceStop = true } // Invalid request conditions: // // Cannot have both forceStart and forceStop in the same // request; If clientToken is provided, request can only be // to continue receiving logs, so it cannot be start or // stop; if (hip.forceStart && hip.forceStop) || (hip.clientToken != "" && (hip.forceStart || hip.forceStop)) { err = ErrInvalidRequest return } // ignore body if clientToken is provided if hip.clientToken == "" { jerr := json.NewDecoder(r).Decode(&hip.hs) if jerr != nil { logger.LogIf(GlobalContext, jerr, logger.Application) err = ErrRequestBodyParse return } } err = ErrNone return } // HealHandler - POST /minio/admin/v3/heal/ // ----------- // Start heal processing and return heal status items. // // On a successful heal sequence start, a unique client token is // returned. Subsequent requests to this endpoint providing the client // token will receive heal status records from the running heal // sequence. // // If no client token is provided, and a heal sequence is in progress // an error is returned with information about the running heal // sequence. However, if the force-start flag is provided, the server // aborts the running heal sequence and starts a new one. func (a adminAPIHandlers) HealHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "Heal") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.HealAdminAction) if objectAPI == nil { return } // Check if this setup has an erasure coded backend. if !globalIsErasure { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrHealNotImplemented), r.URL) return } hip, errCode := extractHealInitParams(mux.Vars(r), r.Form, r.Body) if errCode != ErrNone { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(errCode), r.URL) return } // Analyze the heal token and route the request accordingly token, success := proxyRequestByToken(ctx, w, r, hip.clientToken) if success { return } hip.clientToken = token // if request was not successful, try this server locally if token // is not found the call will fail anyways. if token is empty // try this server to generate a new token. type healResp struct { respBytes []byte apiErr APIError errBody string } // Define a closure to start sending whitespace to client // after 10s unless a response item comes in keepConnLive := func(w http.ResponseWriter, r *http.Request, respCh chan healResp) { ticker := time.NewTicker(time.Second * 10) defer ticker.Stop() started := false forLoop: for { select { case <-r.Context().Done(): return case <-ticker.C: if !started { // Start writing response to client started = true setCommonHeaders(w) setEventStreamHeaders(w) // Set 200 OK status w.WriteHeader(200) } // Send whitespace and keep connection open w.Write([]byte(" ")) w.(http.Flusher).Flush() case hr := <-respCh: switch hr.apiErr { case noError: if started { w.Write(hr.respBytes) w.(http.Flusher).Flush() } else { writeSuccessResponseJSON(w, hr.respBytes) } default: var errorRespJSON []byte if hr.errBody == "" { errorRespJSON = encodeResponseJSON(getAPIErrorResponse(ctx, hr.apiErr, r.URL.Path, w.Header().Get(xhttp.AmzRequestID), globalDeploymentID)) } else { errorRespJSON = encodeResponseJSON(APIErrorResponse{ Code: hr.apiErr.Code, Message: hr.errBody, Resource: r.URL.Path, RequestID: w.Header().Get(xhttp.AmzRequestID), HostID: globalDeploymentID, }) } if !started { setCommonHeaders(w) w.Header().Set(xhttp.ContentType, string(mimeJSON)) w.WriteHeader(hr.apiErr.HTTPStatusCode) } w.Write(errorRespJSON) w.(http.Flusher).Flush() } break forLoop } } } healPath := pathJoin(hip.bucket, hip.objPrefix) if hip.clientToken == "" && !hip.forceStart && !hip.forceStop { nh, exists := globalAllHealState.getHealSequence(healPath) if exists && !nh.hasEnded() && len(nh.currentStatus.Items) > 0 { clientToken := nh.clientToken if globalIsDistErasure { clientToken = fmt.Sprintf("%s@%d", nh.clientToken, GetProxyEndpointLocalIndex(globalProxyEndpoints)) } b, err := json.Marshal(madmin.HealStartSuccess{ ClientToken: clientToken, ClientAddress: nh.clientAddress, StartTime: nh.startTime, }) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } // Client token not specified but a heal sequence exists on a path, // Send the token back to client. writeSuccessResponseJSON(w, b) return } } if hip.clientToken != "" && !hip.forceStart && !hip.forceStop { // Since clientToken is given, fetch heal status from running // heal sequence. respBytes, errCode := globalAllHealState.PopHealStatusJSON( healPath, hip.clientToken) if errCode != ErrNone { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(errCode), r.URL) } else { writeSuccessResponseJSON(w, respBytes) } return } respCh := make(chan healResp) switch { case hip.forceStop: go func() { respBytes, apiErr := globalAllHealState.stopHealSequence(healPath) hr := healResp{respBytes: respBytes, apiErr: apiErr} respCh <- hr }() case hip.clientToken == "": nh := newHealSequence(GlobalContext, hip.bucket, hip.objPrefix, handlers.GetSourceIP(r), hip.hs, hip.forceStart) go func() { respBytes, apiErr, errMsg := globalAllHealState.LaunchNewHealSequence(nh, objectAPI) hr := healResp{respBytes, apiErr, errMsg} respCh <- hr }() } // Due to the force-starting functionality, the Launch // call above can take a long time - to keep the // connection alive, we start sending whitespace keepConnLive(w, r, respCh) } // getAggregatedBackgroundHealState returns the heal state of disks. // If no ObjectLayer is provided no set status is returned. func getAggregatedBackgroundHealState(ctx context.Context, o ObjectLayer) (madmin.BgHealState, error) { // Get local heal status first bgHealStates, ok := getBackgroundHealStatus(ctx, o) if !ok { return bgHealStates, errServerNotInitialized } if globalIsDistErasure { // Get heal status from other peers peersHealStates, nerrs := globalNotificationSys.BackgroundHealStatus() var errCount int for _, nerr := range nerrs { if nerr.Err != nil { logger.LogIf(ctx, nerr.Err) errCount++ } } if errCount == len(nerrs) { return madmin.BgHealState{}, fmt.Errorf("all remote servers failed to report heal status, cluster is unhealthy") } bgHealStates.Merge(peersHealStates...) } return bgHealStates, nil } func (a adminAPIHandlers) BackgroundHealStatusHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "HealBackgroundStatus") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.HealAdminAction) if objectAPI == nil { return } // Check if this setup has an erasure coded backend. if !globalIsErasure { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrHealNotImplemented), r.URL) return } aggregateHealStateResult, err := getAggregatedBackgroundHealState(r.Context(), objectAPI) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } if err := json.NewEncoder(w).Encode(aggregateHealStateResult); err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } } func (a adminAPIHandlers) SpeedtestHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "SpeedtestHandler") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.HealAdminAction) if objectAPI == nil { return } if !globalIsErasure { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrNotImplemented), r.URL) return } sizeStr := r.Form.Get(peerRESTSize) durationStr := r.Form.Get(peerRESTDuration) concurrentStr := r.Form.Get(peerRESTConcurrent) autotuneStr := r.Form.Get("autotune") var autotune bool if autotuneStr != "" { autotune = true } size, err := strconv.Atoi(sizeStr) if err != nil { size = 64 * humanize.MiByte } concurrent, err := strconv.Atoi(concurrentStr) if err != nil { concurrent = 32 } duration, err := time.ParseDuration(durationStr) if err != nil { duration = time.Second * 10 } throughputSize := size iopsSize := size if autotune { iopsSize = 4 * humanize.KiByte } keepAliveTicker := time.NewTicker(500 * time.Millisecond) defer keepAliveTicker.Stop() endBlankRepliesCh := make(chan error) go func() { for { select { case <-ctx.Done(): endBlankRepliesCh <- nil return case <-keepAliveTicker.C: // Write a blank entry to prevent client from disconnecting if err := json.NewEncoder(w).Encode(madmin.SpeedTestResult{}); err != nil { endBlankRepliesCh <- err return } w.(http.Flusher).Flush() case endBlankRepliesCh <- nil: return } } }() result, err := speedTest(ctx, throughputSize, iopsSize, concurrent, duration, autotune) if <-endBlankRepliesCh != nil { return } if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } if err := json.NewEncoder(w).Encode(result); err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } objectAPI.DeleteBucket(ctx, pathJoin(minioMetaSpeedTestBucket, minioMetaSpeedTestBucketPrefix), true) w.(http.Flusher).Flush() } // Admin API errors const ( AdminUpdateUnexpectedFailure = "XMinioAdminUpdateUnexpectedFailure" AdminUpdateURLNotReachable = "XMinioAdminUpdateURLNotReachable" AdminUpdateApplyFailure = "XMinioAdminUpdateApplyFailure" ) // Returns true if the madmin.TraceInfo should be traced, // false if certain conditions are not met. // - input entry is not of the type *madmin.TraceInfo* // - errOnly entries are to be traced, not status code 2xx, 3xx. // - madmin.TraceInfo type is asked by opts func mustTrace(entry interface{}, opts madmin.ServiceTraceOpts) (shouldTrace bool) { trcInfo, ok := entry.(madmin.TraceInfo) if !ok { return false } // Override shouldTrace decision with errOnly filtering defer func() { if shouldTrace && opts.OnlyErrors { shouldTrace = trcInfo.RespInfo.StatusCode >= http.StatusBadRequest } }() if opts.Threshold > 0 { var latency time.Duration switch trcInfo.TraceType { case madmin.TraceOS: latency = trcInfo.OSStats.Duration case madmin.TraceStorage: latency = trcInfo.StorageStats.Duration case madmin.TraceHTTP: latency = trcInfo.CallStats.Latency } if latency < opts.Threshold { return false } } if opts.Internal && trcInfo.TraceType == madmin.TraceHTTP && HasPrefix(trcInfo.ReqInfo.Path, minioReservedBucketPath+SlashSeparator) { return true } if opts.S3 && trcInfo.TraceType == madmin.TraceHTTP && !HasPrefix(trcInfo.ReqInfo.Path, minioReservedBucketPath+SlashSeparator) { return true } if opts.Storage && trcInfo.TraceType == madmin.TraceStorage { return true } return opts.OS && trcInfo.TraceType == madmin.TraceOS } func extractTraceOptions(r *http.Request) (opts madmin.ServiceTraceOpts, err error) { q := r.Form opts.OnlyErrors = q.Get("err") == "true" opts.S3 = q.Get("s3") == "true" opts.Internal = q.Get("internal") == "true" opts.Storage = q.Get("storage") == "true" opts.OS = q.Get("os") == "true" // Support deprecated 'all' query if q.Get("all") == "true" { opts.S3 = true opts.Internal = true opts.Storage = true opts.OS = true } if t := q.Get("threshold"); t != "" { d, err := time.ParseDuration(t) if err != nil { return opts, err } opts.Threshold = d } return } // TraceHandler - POST /minio/admin/v3/trace // ---------- // The handler sends http trace to the connected HTTP client. func (a adminAPIHandlers) TraceHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "HTTPTrace") // Validate request signature. _, adminAPIErr := checkAdminRequestAuth(ctx, r, iampolicy.TraceAdminAction, "") if adminAPIErr != ErrNone { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(adminAPIErr), r.URL) return } traceOpts, err := extractTraceOptions(r) if err != nil { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInvalidRequest), r.URL) return } setEventStreamHeaders(w) // Trace Publisher and peer-trace-client uses nonblocking send and hence does not wait for slow receivers. // Use buffered channel to take care of burst sends or slow w.Write() traceCh := make(chan interface{}, 4000) peers, _ := newPeerRestClients(globalEndpoints) globalTrace.Subscribe(traceCh, ctx.Done(), func(entry interface{}) bool { return mustTrace(entry, traceOpts) }) for _, peer := range peers { if peer == nil { continue } peer.Trace(traceCh, ctx.Done(), traceOpts) } keepAliveTicker := time.NewTicker(500 * time.Millisecond) defer keepAliveTicker.Stop() enc := json.NewEncoder(w) for { select { case entry := <-traceCh: if err := enc.Encode(entry); err != nil { return } if len(traceCh) == 0 { // Flush if nothing is queued w.(http.Flusher).Flush() } case <-keepAliveTicker.C: if len(traceCh) > 0 { continue } if _, err := w.Write([]byte(" ")); err != nil { return } w.(http.Flusher).Flush() case <-ctx.Done(): return } } } // The handler sends console logs to the connected HTTP client. func (a adminAPIHandlers) ConsoleLogHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "ConsoleLog") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.ConsoleLogAdminAction) if objectAPI == nil { return } node := r.Form.Get("node") // limit buffered console entries if client requested it. limitStr := r.Form.Get("limit") limitLines, err := strconv.Atoi(limitStr) if err != nil { limitLines = 10 } logKind := r.Form.Get("logType") if logKind == "" { logKind = string(logger.All) } logKind = strings.ToUpper(logKind) // Avoid reusing tcp connection if read timeout is hit // This is needed to make r.Context().Done() work as // expected in case of read timeout w.Header().Set("Connection", "close") setEventStreamHeaders(w) logCh := make(chan interface{}, 4000) peers, _ := newPeerRestClients(globalEndpoints) globalConsoleSys.Subscribe(logCh, ctx.Done(), node, limitLines, logKind, nil) for _, peer := range peers { if peer == nil { continue } if node == "" || strings.EqualFold(peer.host.Name, node) { peer.ConsoleLog(logCh, ctx.Done()) } } enc := json.NewEncoder(w) keepAliveTicker := time.NewTicker(500 * time.Millisecond) defer keepAliveTicker.Stop() for { select { case entry := <-logCh: log, ok := entry.(log.Info) if ok && log.SendLog(node, logKind) { if err := enc.Encode(log); err != nil { return } } if len(logCh) == 0 { // Flush if nothing is queued w.(http.Flusher).Flush() } case <-keepAliveTicker.C: if len(logCh) > 0 { continue } if _, err := w.Write([]byte(" ")); err != nil { return } w.(http.Flusher).Flush() case <-ctx.Done(): return } } } // KMSCreateKeyHandler - POST /minio/admin/v3/kms/key/create?key-id= func (a adminAPIHandlers) KMSCreateKeyHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "KMSCreateKey") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.KMSCreateKeyAdminAction) if objectAPI == nil { return } if GlobalKMS == nil { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrKMSNotConfigured), r.URL) return } if err := GlobalKMS.CreateKey(r.Form.Get("key-id")); err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } writeSuccessResponseHeadersOnly(w) } // KMSKeyStatusHandler - GET /minio/admin/v3/kms/status func (a adminAPIHandlers) KMSStatusHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "KMSStatus") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.KMSKeyStatusAdminAction) if objectAPI == nil { return } if GlobalKMS == nil { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrKMSNotConfigured), r.URL) return } stat, err := GlobalKMS.Stat() if err != nil { writeCustomErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInternalError), err.Error(), r.URL) return } status := madmin.KMSStatus{ Name: stat.Name, DefaultKeyID: stat.DefaultKey, Endpoints: make(map[string]madmin.ItemState, len(stat.Endpoints)), } for _, endpoint := range stat.Endpoints { status.Endpoints[endpoint] = madmin.ItemOnline // TODO(aead): Implement an online check for mTLS } resp, err := json.Marshal(status) if err != nil { writeCustomErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInternalError), err.Error(), r.URL) return } writeSuccessResponseJSON(w, resp) } // KMSKeyStatusHandler - GET /minio/admin/v3/kms/key/status?key-id= func (a adminAPIHandlers) KMSKeyStatusHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "KMSKeyStatus") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.KMSKeyStatusAdminAction) if objectAPI == nil { return } if GlobalKMS == nil { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrKMSNotConfigured), r.URL) return } stat, err := GlobalKMS.Stat() if err != nil { writeCustomErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInternalError), err.Error(), r.URL) return } keyID := r.Form.Get("key-id") if keyID == "" { keyID = stat.DefaultKey } var response = madmin.KMSKeyStatus{ KeyID: keyID, } kmsContext := kms.Context{"MinIO admin API": "KMSKeyStatusHandler"} // Context for a test key operation // 1. Generate a new key using the KMS. key, err := GlobalKMS.GenerateKey(keyID, kmsContext) if err != nil { response.EncryptionErr = err.Error() resp, err := json.Marshal(response) if err != nil { writeCustomErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInternalError), err.Error(), r.URL) return } writeSuccessResponseJSON(w, resp) return } // 2. Verify that we can indeed decrypt the (encrypted) key decryptedKey, err := GlobalKMS.DecryptKey(key.KeyID, key.Ciphertext, kmsContext) if err != nil { response.DecryptionErr = err.Error() resp, err := json.Marshal(response) if err != nil { writeCustomErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInternalError), err.Error(), r.URL) return } writeSuccessResponseJSON(w, resp) return } // 3. Compare generated key with decrypted key if subtle.ConstantTimeCompare(key.Plaintext, decryptedKey) != 1 { response.DecryptionErr = "The generated and the decrypted data key do not match" resp, err := json.Marshal(response) if err != nil { writeCustomErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInternalError), err.Error(), r.URL) return } writeSuccessResponseJSON(w, resp) return } resp, err := json.Marshal(response) if err != nil { writeCustomErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInternalError), err.Error(), r.URL) return } writeSuccessResponseJSON(w, resp) } func getServerInfo(ctx context.Context, r *http.Request) madmin.InfoMessage { kmsStat := fetchKMSStatus() ldap := madmin.LDAP{} if globalLDAPConfig.Enabled { ldapConn, err := globalLDAPConfig.Connect() if err != nil { ldap.Status = string(madmin.ItemOffline) } else if ldapConn == nil { ldap.Status = "Not Configured" } else { // Close ldap connection to avoid leaks. ldapConn.Close() ldap.Status = string(madmin.ItemOnline) } } log, audit := fetchLoggerInfo() // Get the notification target info notifyTarget := fetchLambdaInfo() local := getLocalServerProperty(globalEndpoints, r) servers := globalNotificationSys.ServerInfo() servers = append(servers, local) assignPoolNumbers(servers) var backend interface{} mode := madmin.ItemInitializing buckets := madmin.Buckets{} objects := madmin.Objects{} usage := madmin.Usage{} objectAPI := newObjectLayerFn() if objectAPI != nil { mode = madmin.ItemOnline // Load data usage dataUsageInfo, err := loadDataUsageFromBackend(ctx, objectAPI) if err == nil { buckets = madmin.Buckets{Count: dataUsageInfo.BucketsCount} objects = madmin.Objects{Count: dataUsageInfo.ObjectsTotalCount} usage = madmin.Usage{Size: dataUsageInfo.ObjectsTotalSize} } else { buckets = madmin.Buckets{Error: err.Error()} objects = madmin.Objects{Error: err.Error()} usage = madmin.Usage{Error: err.Error()} } // Fetching the backend information backendInfo := objectAPI.BackendInfo() if backendInfo.Type == madmin.Erasure { // Calculate the number of online/offline disks of all nodes var allDisks []madmin.Disk for _, s := range servers { allDisks = append(allDisks, s.Disks...) } onlineDisks, offlineDisks := getOnlineOfflineDisksStats(allDisks) backend = madmin.ErasureBackend{ Type: madmin.ErasureType, OnlineDisks: onlineDisks.Sum(), OfflineDisks: offlineDisks.Sum(), StandardSCParity: backendInfo.StandardSCParity, RRSCParity: backendInfo.RRSCParity, } } else { backend = madmin.FSBackend{ Type: madmin.FsType, } } } domain := globalDomainNames services := madmin.Services{ KMS: kmsStat, LDAP: ldap, Logger: log, Audit: audit, Notifications: notifyTarget, } return madmin.InfoMessage{ Mode: string(mode), Domain: domain, Region: globalServerRegion, SQSARN: globalNotificationSys.GetARNList(false), DeploymentID: globalDeploymentID, Buckets: buckets, Objects: objects, Usage: usage, Services: services, Backend: backend, Servers: servers, } } // HealthInfoHandler - GET /minio/admin/v3/healthinfo // ---------- // Get server health info func (a adminAPIHandlers) HealthInfoHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "HealthInfo") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) objectAPI, _ := validateAdminReq(ctx, w, r, iampolicy.HealthInfoAdminAction) if objectAPI == nil { return } query := r.Form healthInfo := madmin.HealthInfo{Version: madmin.HealthInfoVersion} healthInfoCh := make(chan madmin.HealthInfo) enc := json.NewEncoder(w) partialWrite := func(oinfo madmin.HealthInfo) { healthInfoCh <- oinfo } setCommonHeaders(w) setEventStreamHeaders(w) w.WriteHeader(http.StatusOK) errResp := func(err error) { errorResponse := getAPIErrorResponse(ctx, toAdminAPIErr(ctx, err), r.URL.String(), w.Header().Get(xhttp.AmzRequestID), globalDeploymentID) encodedErrorResponse := encodeResponse(errorResponse) healthInfo.Error = string(encodedErrorResponse) logger.LogIf(ctx, enc.Encode(healthInfo)) } deadline := 1 * time.Hour if dstr := r.Form.Get("deadline"); dstr != "" { var err error deadline, err = time.ParseDuration(dstr) if err != nil { errResp(err) return } } deadlinedCtx, deadlineCancel := context.WithTimeout(ctx, deadline) defer deadlineCancel() nsLock := objectAPI.NewNSLock(minioMetaBucket, "health-check-in-progress") lkctx, err := nsLock.GetLock(ctx, newDynamicTimeout(deadline, deadline)) if err != nil { // returns a locked lock errResp(err) return } defer nsLock.Unlock(lkctx.Cancel) hostAnonymizer := createHostAnonymizer() // anonAddr - Anonymizes hosts in given input string. anonAddr := func(addr string) string { newAddr, found := hostAnonymizer[addr] if found { return newAddr } // If we reach here, it means that the given addr doesn't contain any of the hosts. // Return it as is. Can happen for drive paths in non-distributed mode return addr } // anonymizedAddr - Updated the addr of the node info with anonymized one anonymizeAddr := func(info madmin.NodeInfo) { info.SetAddr(anonAddr(info.GetAddr())) } getAndWriteCPUs := func() { if query.Get("syscpu") == "true" { localCPUInfo := madmin.GetCPUs(deadlinedCtx, globalLocalNodeName) anonymizeAddr(&localCPUInfo) healthInfo.Sys.CPUInfo = append(healthInfo.Sys.CPUInfo, localCPUInfo) peerCPUInfo := globalNotificationSys.GetCPUs(deadlinedCtx) for _, cpuInfo := range peerCPUInfo { anonymizeAddr(&cpuInfo) healthInfo.Sys.CPUInfo = append(healthInfo.Sys.CPUInfo, cpuInfo) } partialWrite(healthInfo) } } getAndWritePartitions := func() { if query.Get("sysdrivehw") == "true" { localPartitions := madmin.GetPartitions(deadlinedCtx, globalLocalNodeName) anonymizeAddr(&localPartitions) healthInfo.Sys.Partitions = append(healthInfo.Sys.Partitions, localPartitions) peerPartitions := globalNotificationSys.GetPartitions(deadlinedCtx) for _, p := range peerPartitions { anonymizeAddr(&p) healthInfo.Sys.Partitions = append(healthInfo.Sys.Partitions, p) } partialWrite(healthInfo) } } getAndWriteOSInfo := func() { if query.Get("sysosinfo") == "true" { localOSInfo := madmin.GetOSInfo(deadlinedCtx, globalLocalNodeName) anonymizeAddr(&localOSInfo) healthInfo.Sys.OSInfo = append(healthInfo.Sys.OSInfo, localOSInfo) peerOSInfos := globalNotificationSys.GetOSInfo(deadlinedCtx) for _, o := range peerOSInfos { anonymizeAddr(&o) healthInfo.Sys.OSInfo = append(healthInfo.Sys.OSInfo, o) } partialWrite(healthInfo) } } getAndWriteMemInfo := func() { if query.Get("sysmem") == "true" { localMemInfo := madmin.GetMemInfo(deadlinedCtx, globalLocalNodeName) anonymizeAddr(&localMemInfo) healthInfo.Sys.MemInfo = append(healthInfo.Sys.MemInfo, localMemInfo) peerMemInfos := globalNotificationSys.GetMemInfo(deadlinedCtx) for _, m := range peerMemInfos { anonymizeAddr(&m) healthInfo.Sys.MemInfo = append(healthInfo.Sys.MemInfo, m) } partialWrite(healthInfo) } } getAndWriteSysErrors := func() { if query.Get(string(madmin.HealthDataTypeSysErrors)) == "true" { localSysErrors := madmin.GetSysErrors(deadlinedCtx, globalLocalNodeName) anonymizeAddr(&localSysErrors) healthInfo.Sys.SysErrs = append(healthInfo.Sys.SysErrs, localSysErrors) partialWrite(healthInfo) peerSysErrs := globalNotificationSys.GetSysErrors(deadlinedCtx) for _, se := range peerSysErrs { anonymizeAddr(&se) healthInfo.Sys.SysErrs = append(healthInfo.Sys.SysErrs, se) } partialWrite(healthInfo) } } getAndWriteSysConfig := func() { if query.Get(string(madmin.HealthDataTypeSysConfig)) == "true" { localSysConfig := madmin.GetSysConfig(deadlinedCtx, globalLocalNodeName) anonymizeAddr(&localSysConfig) healthInfo.Sys.SysConfig = append(healthInfo.Sys.SysConfig, localSysConfig) partialWrite(healthInfo) peerSysConfig := globalNotificationSys.GetSysConfig(deadlinedCtx) for _, sc := range peerSysConfig { anonymizeAddr(&sc) healthInfo.Sys.SysConfig = append(healthInfo.Sys.SysConfig, sc) } partialWrite(healthInfo) } } getAndWriteSysServices := func() { if query.Get(string(madmin.HealthDataTypeSysServices)) == "true" { localSysServices := madmin.GetSysServices(deadlinedCtx, globalLocalNodeName) anonymizeAddr(&localSysServices) healthInfo.Sys.SysServices = append(healthInfo.Sys.SysServices, localSysServices) partialWrite(healthInfo) peerSysServices := globalNotificationSys.GetSysServices(deadlinedCtx) for _, ss := range peerSysServices { anonymizeAddr(&ss) healthInfo.Sys.SysServices = append(healthInfo.Sys.SysServices, ss) } partialWrite(healthInfo) } } anonymizeCmdLine := func(cmdLine string) string { if !globalIsDistErasure { // FS mode - single server - hard code to `server1` anonCmdLine := strings.Replace(cmdLine, globalLocalNodeName, "server1", -1) return strings.Replace(anonCmdLine, globalMinioConsoleHost, "server1", -1) } // Server start command regex groups: // 1 - minio server // 2 - flags e.g. `--address :9000 --certs-dir /etc/minio/certs` // 3 - pool args e.g. `https://node{01...16}.domain/data/disk{001...204} https://node{17...32}.domain/data/disk{001...204}` re := regexp.MustCompile(`^(.*minio\s+server\s+)(--[^\s]+\s+[^\s]+\s+)*(.*)`) // stays unchanged in the anonymized version cmdLineWithoutPools := re.ReplaceAllString(cmdLine, `$1$2`) // to be anonymized poolsArgs := re.ReplaceAllString(cmdLine, `$3`) var anonPools []string if !(strings.Contains(poolsArgs, "{") && strings.Contains(poolsArgs, "}")) { // No ellipses pattern. Anonymize host name from every pool arg pools := strings.Fields(poolsArgs) anonPools = make([]string, len(pools)) for _, arg := range pools { anonPools = append(anonPools, anonAddr(arg)) } return cmdLineWithoutPools + strings.Join(anonPools, " ") } // Ellipses pattern in pool args. Regex groups: // 1 - server prefix // 2 - number sequence for servers // 3 - server suffix // 4 - drive prefix (starting with /) // 5 - number sequence for drives // 6 - drive suffix re = regexp.MustCompile(`([^\s^{]*)({\d+...\d+})?([^\s^{^/]*)(/[^\s^{]*)({\d+...\d+})?([^\s]*)`) poolsMatches := re.FindAllStringSubmatch(poolsArgs, -1) anonPools = make([]string, len(poolsMatches)) idxMap := map[int]string{ 1: "spfx", 3: "ssfx", } for pi, poolsMatch := range poolsMatches { // Replace the server prefix/suffix with anonymized ones for idx, lbl := range idxMap { if len(poolsMatch[idx]) > 0 { poolsMatch[idx] = fmt.Sprintf("%s%d", lbl, crc32.ChecksumIEEE([]byte(poolsMatch[idx]))) } } // Remove the original pools args present at index 0 anonPools[pi] = strings.Join(poolsMatch[1:], "") } return cmdLineWithoutPools + strings.Join(anonPools, " ") } anonymizeProcInfo := func(p *madmin.ProcInfo) { p.CmdLine = anonymizeCmdLine(p.CmdLine) anonymizeAddr(p) } getAndWriteProcInfo := func() { if query.Get("sysprocess") == "true" { localProcInfo := madmin.GetProcInfo(deadlinedCtx, globalLocalNodeName) anonymizeProcInfo(&localProcInfo) healthInfo.Sys.ProcInfo = append(healthInfo.Sys.ProcInfo, localProcInfo) peerProcInfos := globalNotificationSys.GetProcInfo(deadlinedCtx) for _, p := range peerProcInfos { anonymizeProcInfo(&p) healthInfo.Sys.ProcInfo = append(healthInfo.Sys.ProcInfo, p) } partialWrite(healthInfo) } } getAndWriteMinioConfig := func() { if query.Get("minioconfig") == "true" { config, err := readServerConfig(ctx, objectAPI) if err != nil { healthInfo.Minio.Config = madmin.MinioConfig{ Error: err.Error(), } } else { healthInfo.Minio.Config = madmin.MinioConfig{ Config: config.RedactSensitiveInfo(), } } partialWrite(healthInfo) } } getAndWriteDrivePerfInfo := func() { if query.Get("perfdrive") == "true" { localDPI := getDrivePerfInfos(deadlinedCtx, globalLocalNodeName) anonymizeAddr(&localDPI) healthInfo.Perf.Drives = append(healthInfo.Perf.Drives, localDPI) partialWrite(healthInfo) perfCh := globalNotificationSys.GetDrivePerfInfos(deadlinedCtx) for perfInfo := range perfCh { anonymizeAddr(&perfInfo) healthInfo.Perf.Drives = append(healthInfo.Perf.Drives, perfInfo) partialWrite(healthInfo) } } } anonymizeNetPerfInfo := func(npi *madmin.NetPerfInfo) { anonymizeAddr(npi) rps := npi.RemotePeers for idx, peer := range rps { anonymizeAddr(&peer) rps[idx] = peer } npi.RemotePeers = rps } getAndWriteNetPerfInfo := func() { if globalIsDistErasure && query.Get("perfnet") == "true" { localNPI := globalNotificationSys.GetNetPerfInfo(deadlinedCtx) anonymizeNetPerfInfo(&localNPI) healthInfo.Perf.Net = append(healthInfo.Perf.Net, localNPI) partialWrite(healthInfo) netInfos := globalNotificationSys.DispatchNetPerfChan(deadlinedCtx) for netInfo := range netInfos { anonymizeNetPerfInfo(&netInfo) healthInfo.Perf.Net = append(healthInfo.Perf.Net, netInfo) partialWrite(healthInfo) } ppi := globalNotificationSys.GetParallelNetPerfInfo(deadlinedCtx) anonymizeNetPerfInfo(&ppi) healthInfo.Perf.NetParallel = ppi partialWrite(healthInfo) } } anonymizeNetwork := func(network map[string]string) map[string]string { anonNetwork := map[string]string{} for endpoint, status := range network { anonEndpoint := anonAddr(endpoint) anonNetwork[anonEndpoint] = status } return anonNetwork } anonymizeDrives := func(drives []madmin.Disk) []madmin.Disk { anonDrives := []madmin.Disk{} for _, drive := range drives { drive.Endpoint = anonAddr(drive.Endpoint) anonDrives = append(anonDrives, drive) } return anonDrives } go func() { defer close(healthInfoCh) partialWrite(healthInfo) // Write first message with only version populated getAndWriteCPUs() getAndWritePartitions() getAndWriteOSInfo() getAndWriteMemInfo() getAndWriteProcInfo() getAndWriteMinioConfig() getAndWriteDrivePerfInfo() getAndWriteNetPerfInfo() getAndWriteSysErrors() getAndWriteSysServices() getAndWriteSysConfig() if query.Get("minioinfo") == "true" { infoMessage := getServerInfo(ctx, r) servers := []madmin.ServerInfo{} for _, server := range infoMessage.Servers { anonEndpoint := anonAddr(server.Endpoint) servers = append(servers, madmin.ServerInfo{ State: server.State, Endpoint: anonEndpoint, Uptime: server.Uptime, Version: server.Version, CommitID: server.CommitID, Network: anonymizeNetwork(server.Network), Drives: anonymizeDrives(server.Disks), PoolNumber: server.PoolNumber, MemStats: madmin.MemStats{ Alloc: server.MemStats.Alloc, TotalAlloc: server.MemStats.TotalAlloc, Mallocs: server.MemStats.Mallocs, Frees: server.MemStats.Frees, HeapAlloc: server.MemStats.HeapAlloc, }, }) } healthInfo.Minio.Info = madmin.MinioInfo{ Mode: infoMessage.Mode, Domain: infoMessage.Domain, Region: infoMessage.Region, SQSARN: infoMessage.SQSARN, DeploymentID: infoMessage.DeploymentID, Buckets: infoMessage.Buckets, Objects: infoMessage.Objects, Usage: infoMessage.Usage, Services: infoMessage.Services, Backend: infoMessage.Backend, Servers: servers, } partialWrite(healthInfo) } }() ticker := time.NewTicker(5 * time.Second) defer ticker.Stop() for { select { case oinfo, ok := <-healthInfoCh: if !ok { return } logger.LogIf(ctx, enc.Encode(oinfo)) w.(http.Flusher).Flush() case <-ticker.C: if _, err := w.Write([]byte(" ")); err != nil { return } w.(http.Flusher).Flush() case <-deadlinedCtx.Done(): w.(http.Flusher).Flush() return } } } // BandwidthMonitorHandler - GET /minio/admin/v3/bandwidth // ---------- // Get bandwidth consumption information func (a adminAPIHandlers) BandwidthMonitorHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "BandwidthMonitor") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) // Validate request signature. _, adminAPIErr := checkAdminRequestAuth(ctx, r, iampolicy.BandwidthMonitorAction, "") if adminAPIErr != ErrNone { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(adminAPIErr), r.URL) return } rnd := rand.New(rand.NewSource(time.Now().UnixNano())) setEventStreamHeaders(w) reportCh := make(chan madmin.BucketBandwidthReport) keepAliveTicker := time.NewTicker(500 * time.Millisecond) defer keepAliveTicker.Stop() bucketsRequestedString := r.Form.Get("buckets") bucketsRequested := strings.Split(bucketsRequestedString, ",") go func() { defer close(reportCh) for { select { case <-ctx.Done(): return case reportCh <- globalNotificationSys.GetBandwidthReports(ctx, bucketsRequested...): time.Sleep(time.Duration(rnd.Float64() * float64(2*time.Second))) } } }() for { select { case report, ok := <-reportCh: if !ok { return } if err := json.NewEncoder(w).Encode(report); err != nil { writeErrorResponseJSON(ctx, w, toAPIError(ctx, err), r.URL) return } w.(http.Flusher).Flush() case <-keepAliveTicker.C: if _, err := w.Write([]byte(" ")); err != nil { return } w.(http.Flusher).Flush() case <-ctx.Done(): return } } } // ServerInfoHandler - GET /minio/admin/v3/info // ---------- // Get server information func (a adminAPIHandlers) ServerInfoHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "ServerInfo") defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) // Validate request signature. _, adminAPIErr := checkAdminRequestAuth(ctx, r, iampolicy.ServerInfoAdminAction, "") if adminAPIErr != ErrNone { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(adminAPIErr), r.URL) return } // Marshal API response jsonBytes, err := json.Marshal(getServerInfo(ctx, r)) if err != nil { writeErrorResponseJSON(ctx, w, toAdminAPIErr(ctx, err), r.URL) return } // Reply with storage information (across nodes in a // distributed setup) as json. writeSuccessResponseJSON(w, jsonBytes) } func assignPoolNumbers(servers []madmin.ServerProperties) { for i := range servers { for idx, ge := range globalEndpoints { for _, endpoint := range ge.Endpoints { if servers[i].Endpoint == endpoint.Host { servers[i].PoolNumber = idx + 1 } else if host, err := xnet.ParseHost(servers[i].Endpoint); err == nil { if host.Name == endpoint.Hostname() { servers[i].PoolNumber = idx + 1 } } } } } } func fetchLambdaInfo() []map[string][]madmin.TargetIDStatus { lambdaMap := make(map[string][]madmin.TargetIDStatus) for _, tgt := range globalConfigTargetList.Targets() { targetIDStatus := make(map[string]madmin.Status) active, _ := tgt.IsActive() targetID := tgt.ID() if active { targetIDStatus[targetID.ID] = madmin.Status{Status: string(madmin.ItemOnline)} } else { targetIDStatus[targetID.ID] = madmin.Status{Status: string(madmin.ItemOffline)} } list := lambdaMap[targetID.Name] list = append(list, targetIDStatus) lambdaMap[targetID.Name] = list } for _, tgt := range globalEnvTargetList.Targets() { targetIDStatus := make(map[string]madmin.Status) active, _ := tgt.IsActive() targetID := tgt.ID() if active { targetIDStatus[targetID.ID] = madmin.Status{Status: string(madmin.ItemOnline)} } else { targetIDStatus[targetID.ID] = madmin.Status{Status: string(madmin.ItemOffline)} } list := lambdaMap[targetID.Name] list = append(list, targetIDStatus) lambdaMap[targetID.Name] = list } notify := make([]map[string][]madmin.TargetIDStatus, len(lambdaMap)) counter := 0 for key, value := range lambdaMap { v := make(map[string][]madmin.TargetIDStatus) v[key] = value notify[counter] = v counter++ } return notify } // fetchKMSStatus fetches KMS-related status information. func fetchKMSStatus() madmin.KMS { kmsStat := madmin.KMS{} if GlobalKMS == nil { kmsStat.Status = "disabled" return kmsStat } stat, err := GlobalKMS.Stat() if err != nil { kmsStat.Status = string(madmin.ItemOffline) return kmsStat } if len(stat.Endpoints) == 0 { kmsStat.Status = stat.Name return kmsStat } kmsStat.Status = string(madmin.ItemOnline) kmsContext := kms.Context{"MinIO admin API": "ServerInfoHandler"} // Context for a test key operation // 1. Generate a new key using the KMS. key, err := GlobalKMS.GenerateKey("", kmsContext) if err != nil { kmsStat.Encrypt = fmt.Sprintf("Encryption failed: %v", err) } else { kmsStat.Encrypt = "success" } // 2. Verify that we can indeed decrypt the (encrypted) key decryptedKey, err := GlobalKMS.DecryptKey(key.KeyID, key.Ciphertext, kmsContext) switch { case err != nil: kmsStat.Decrypt = fmt.Sprintf("Decryption failed: %v", err) case subtle.ConstantTimeCompare(key.Plaintext, decryptedKey) != 1: kmsStat.Decrypt = "Decryption failed: decrypted key does not match generated key" default: kmsStat.Decrypt = "success" } return kmsStat } // fetchLoggerDetails return log info func fetchLoggerInfo() ([]madmin.Logger, []madmin.Audit) { var loggerInfo []madmin.Logger var auditloggerInfo []madmin.Audit for _, target := range logger.Targets { if target.Endpoint() != "" { tgt := target.String() err := checkConnection(target.Endpoint(), 15*time.Second) if err == nil { mapLog := make(map[string]madmin.Status) mapLog[tgt] = madmin.Status{Status: string(madmin.ItemOnline)} loggerInfo = append(loggerInfo, mapLog) } else { mapLog := make(map[string]madmin.Status) mapLog[tgt] = madmin.Status{Status: string(madmin.ItemOffline)} loggerInfo = append(loggerInfo, mapLog) } } } for _, target := range logger.AuditTargets { if target.Endpoint() != "" { tgt := target.String() err := checkConnection(target.Endpoint(), 15*time.Second) if err == nil { mapAudit := make(map[string]madmin.Status) mapAudit[tgt] = madmin.Status{Status: string(madmin.ItemOnline)} auditloggerInfo = append(auditloggerInfo, mapAudit) } else { mapAudit := make(map[string]madmin.Status) mapAudit[tgt] = madmin.Status{Status: string(madmin.ItemOffline)} auditloggerInfo = append(auditloggerInfo, mapAudit) } } } return loggerInfo, auditloggerInfo } // checkConnection - ping an endpoint , return err in case of no connection func checkConnection(endpointStr string, timeout time.Duration) error { ctx, cancel := context.WithTimeout(GlobalContext, timeout) defer cancel() client := &http.Client{Transport: &http.Transport{ Proxy: http.ProxyFromEnvironment, DialContext: xhttp.NewCustomDialContext(timeout), ResponseHeaderTimeout: 5 * time.Second, TLSHandshakeTimeout: 5 * time.Second, ExpectContinueTimeout: 5 * time.Second, TLSClientConfig: &tls.Config{RootCAs: globalRootCAs}, // Go net/http automatically unzip if content-type is // gzip disable this feature, as we are always interested // in raw stream. DisableCompression: true, }} defer client.CloseIdleConnections() req, err := http.NewRequestWithContext(ctx, http.MethodHead, endpointStr, nil) if err != nil { return err } resp, err := client.Do(req) if err != nil { return err } defer xhttp.DrainBody(resp.Body) return nil } // getRawDataer provides an interface for getting raw FS files. type getRawDataer interface { GetRawData(ctx context.Context, volume, file string, fn func(r io.Reader, host string, disk string, filename string, size int64, modtime time.Time, isDir bool) error) error } // InspectDataHandler - GET /minio/admin/v3/inspect-data // ---------- // Download file from all nodes in a zip format func (a adminAPIHandlers) InspectDataHandler(w http.ResponseWriter, r *http.Request) { ctx := newContext(r, w, "InspectData") // Validate request signature. _, adminAPIErr := checkAdminRequestAuth(ctx, r, iampolicy.InspectDataAction, "") if adminAPIErr != ErrNone { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(adminAPIErr), r.URL) return } defer logger.AuditLog(ctx, w, r, mustGetClaimsFromToken(r)) o, ok := newObjectLayerFn().(getRawDataer) if !ok { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrNotImplemented), r.URL) return } volume := r.Form.Get("volume") file := r.Form.Get("file") if len(volume) == 0 { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInvalidBucketName), r.URL) return } if len(file) == 0 { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInvalidRequest), r.URL) return } file = strings.ReplaceAll(file, string(os.PathSeparator), "/") // Reject attempts to traverse parent or absolute paths. if strings.Contains(file, "..") || strings.Contains(volume, "..") { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrAccessDenied), r.URL) return } var key [32]byte // MUST use crypto/rand n, err := crand.Read(key[:]) if err != nil || n != len(key) { logger.LogIf(ctx, err) writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInternalError), r.URL) return } stream, err := sio.AES_256_GCM.Stream(key[:]) if err != nil { logger.LogIf(ctx, err) writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInternalError), r.URL) return } // Zero nonce, we only use each key once, and 32 bytes is plenty. nonce := make([]byte, stream.NonceSize()) encw := stream.EncryptWriter(w, nonce, nil) defer encw.Close() // Write a version for making *incompatible* changes. // The AdminClient will reject any version it does not know. w.Write([]byte{1}) // Write key first (without encryption) _, err = w.Write(key[:]) if err != nil { writeErrorResponseJSON(ctx, w, errorCodes.ToAPIErr(ErrInternalError), r.URL) return } // Initialize a zip writer which will provide a zipped content // of profiling data of all nodes zipWriter := zip.NewWriter(encw) defer zipWriter.Close() err = o.GetRawData(ctx, volume, file, func(r io.Reader, host, disk, filename string, size int64, modtime time.Time, isDir bool) error { // Prefix host+disk filename = path.Join(host, disk, filename) if isDir { filename += "/" size = 0 } header, zerr := zip.FileInfoHeader(dummyFileInfo{ name: filename, size: size, mode: 0600, modTime: modtime, isDir: isDir, sys: nil, }) if zerr != nil { logger.LogIf(ctx, zerr) return nil } header.Method = zip.Deflate zwriter, zerr := zipWriter.CreateHeader(header) if zerr != nil { logger.LogIf(ctx, zerr) return nil } if _, err = io.Copy(zwriter, r); err != nil { logger.LogIf(ctx, err) } return nil }) logger.LogIf(ctx, err) } func createHostAnonymizerForFSMode() map[string]string { hostAnonymizer := map[string]string{ globalLocalNodeName: "server1", } apiEndpoints := getAPIEndpoints() for _, ep := range apiEndpoints { if len(ep) == 0 { continue } if url, err := xnet.ParseHTTPURL(ep); err == nil { // In FS mode the drive names don't include the host. // So mapping just the host should be sufficient. hostAnonymizer[url.Host] = "server1" } } return hostAnonymizer } // anonymizeHost - Add entries related to given endpoint in the host anonymizer map // The health report data can contain the hostname in various forms e.g. host, host:port, // host:port/drivepath, full url (http://host:port/drivepath) // The anonymizer map will have mappings for all these varients for efficiently replacing // any of these strings to the anonymized versions at the time of health report generation. func anonymizeHost(hostAnonymizer map[string]string, endpoint Endpoint, poolNum int, srvrNum int) { if len(endpoint.Host) == 0 { return } currentURL := endpoint.String() // mapIfNotPresent - Maps the given key to the value only if the key is not present in the map mapIfNotPresent := func(m map[string]string, key string, val string) { _, found := m[key] if !found { m[key] = val } } _, found := hostAnonymizer[currentURL] if !found { // In distributed setup, anonymized addr = 'poolNum.serverNum' newHost := fmt.Sprintf("pool%d.server%d", poolNum, srvrNum) // Hostname mapIfNotPresent(hostAnonymizer, endpoint.Hostname(), newHost) newHostPort := newHost if len(endpoint.Port()) > 0 { // Host + port newHostPort = newHost + ":" + endpoint.Port() mapIfNotPresent(hostAnonymizer, endpoint.Host, newHostPort) } newHostPortPath := newHostPort if len(endpoint.Path) > 0 { // Host + port + path currentHostPortPath := endpoint.Host + endpoint.Path newHostPortPath = newHostPort + endpoint.Path mapIfNotPresent(hostAnonymizer, currentHostPortPath, newHostPortPath) } // Full url hostAnonymizer[currentURL] = endpoint.Scheme + "://" + newHostPortPath } } // createHostAnonymizer - Creats a map of various strings to corresponding anonymized names func createHostAnonymizer() map[string]string { if !globalIsDistErasure { return createHostAnonymizerForFSMode() } hostAnonymizer := map[string]string{} for poolIdx, pool := range globalEndpoints { for srvrIdx, endpoint := range pool.Endpoints { anonymizeHost(hostAnonymizer, endpoint, poolIdx+1, srvrIdx+1) } } return hostAnonymizer }