891a2fb6eb
* initial design * added simulation as tests * reorganized the codebase to move the simulation framework and tests into their own dedicated package * integration test. ec worker task * remove "enhanced" reference * start master, volume servers, filer Current Status ✅ Master: Healthy and running (port 9333) ✅ Filer: Healthy and running (port 8888) ✅ Volume Servers: All 6 servers running (ports 8080-8085) 🔄 Admin/Workers: Will start when dependencies are ready * generate write load * tasks are assigned * admin start wtih grpc port. worker has its own working directory * Update .gitignore * working worker and admin. Task detection is not working yet. * compiles, detection uses volumeSizeLimitMB from master * compiles * worker retries connecting to admin * build and restart * rendering pending tasks * skip task ID column * sticky worker id * test canScheduleTaskNow * worker reconnect to admin * clean up logs * worker register itself first * worker can run ec work and report status but: 1. one volume should not be repeatedly worked on. 2. ec shards needs to be distributed and source data should be deleted. * move ec task logic * listing ec shards * local copy, ec. Need to distribute. * ec is mostly working now * distribution of ec shards needs improvement * need configuration to enable ec * show ec volumes * interval field UI component * rename * integration test with vauuming * garbage percentage threshold * fix warning * display ec shard sizes * fix ec volumes list * Update ui.go * show default values * ensure correct default value * MaintenanceConfig use ConfigField * use schema defined defaults * config * reduce duplication * refactor to use BaseUIProvider * each task register its schema * checkECEncodingCandidate use ecDetector * use vacuumDetector * use volumeSizeLimitMB * remove remove * remove unused * refactor * use new framework * remove v2 reference * refactor * left menu can scroll now * The maintenance manager was not being initialized when no data directory was configured for persistent storage. * saving config * Update task_config_schema_templ.go * enable/disable tasks * protobuf encoded task configurations * fix system settings * use ui component * remove logs * interface{} Reduction * reduce interface{} * reduce interface{} * avoid from/to map * reduce interface{} * refactor * keep it DRY * added logging * debug messages * debug level * debug * show the log caller line * use configured task policy * log level * handle admin heartbeat response * Update worker.go * fix EC rack and dc count * Report task status to admin server * fix task logging, simplify interface checking, use erasure_coding constants * factor in empty volume server during task planning * volume.list adds disk id * track disk id also * fix locking scheduled and manual scanning * add active topology * simplify task detector * ec task completed, but shards are not showing up * implement ec in ec_typed.go * adjust log level * dedup * implementing ec copying shards and only ecx files * use disk id when distributing ec shards 🎯 Planning: ActiveTopology creates DestinationPlan with specific TargetDisk 📦 Task Creation: maintenance_integration.go creates ECDestination with DiskId 🚀 Task Execution: EC task passes DiskId in VolumeEcShardsCopyRequest 💾 Volume Server: Receives disk_id and stores shards on specific disk (vs.store.Locations[req.DiskId]) 📂 File System: EC shards and metadata land in the exact disk directory planned * Delete original volume from all locations * clean up existing shard locations * local encoding and distributing * Update docker/admin_integration/EC-TESTING-README.md Co-authored-by: gemini-code-assist[bot] <176961590+gemini-code-assist[bot]@users.noreply.github.com> * check volume id range * simplify * fix tests * fix types * clean up logs and tests --------- Co-authored-by: gemini-code-assist[bot] <176961590+gemini-code-assist[bot]@users.noreply.github.com>
113 lines
3.3 KiB
Go
113 lines
3.3 KiB
Go
package vacuum
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import (
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"time"
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"github.com/seaweedfs/seaweedfs/weed/glog"
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"github.com/seaweedfs/seaweedfs/weed/worker/tasks/base"
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"github.com/seaweedfs/seaweedfs/weed/worker/types"
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)
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// Detection implements the detection logic for vacuum tasks
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func Detection(metrics []*types.VolumeHealthMetrics, clusterInfo *types.ClusterInfo, config base.TaskConfig) ([]*types.TaskDetectionResult, error) {
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if !config.IsEnabled() {
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return nil, nil
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}
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vacuumConfig := config.(*Config)
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var results []*types.TaskDetectionResult
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minVolumeAge := time.Duration(vacuumConfig.MinVolumeAgeSeconds) * time.Second
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debugCount := 0
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skippedDueToGarbage := 0
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skippedDueToAge := 0
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for _, metric := range metrics {
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// Check if volume needs vacuum
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if metric.GarbageRatio >= vacuumConfig.GarbageThreshold && metric.Age >= minVolumeAge {
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priority := types.TaskPriorityNormal
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if metric.GarbageRatio > 0.6 {
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priority = types.TaskPriorityHigh
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}
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result := &types.TaskDetectionResult{
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TaskType: types.TaskTypeVacuum,
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VolumeID: metric.VolumeID,
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Server: metric.Server,
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Collection: metric.Collection,
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Priority: priority,
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Reason: "Volume has excessive garbage requiring vacuum",
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ScheduleAt: time.Now(),
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}
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results = append(results, result)
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} else {
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// Debug why volume was not selected
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if debugCount < 5 { // Limit debug output to first 5 volumes
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if metric.GarbageRatio < vacuumConfig.GarbageThreshold {
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skippedDueToGarbage++
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}
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if metric.Age < minVolumeAge {
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skippedDueToAge++
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}
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}
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debugCount++
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}
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}
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// Log debug summary if no tasks were created
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if len(results) == 0 && len(metrics) > 0 {
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totalVolumes := len(metrics)
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glog.Infof("VACUUM: No tasks created for %d volumes. Threshold=%.2f%%, MinAge=%s. Skipped: %d (garbage<threshold), %d (age<minimum)",
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totalVolumes, vacuumConfig.GarbageThreshold*100, minVolumeAge, skippedDueToGarbage, skippedDueToAge)
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// Show details for first few volumes
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for i, metric := range metrics {
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if i >= 3 { // Limit to first 3 volumes
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break
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}
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glog.Infof("VACUUM: Volume %d: garbage=%.2f%% (need ≥%.2f%%), age=%s (need ≥%s)",
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metric.VolumeID, metric.GarbageRatio*100, vacuumConfig.GarbageThreshold*100,
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metric.Age.Truncate(time.Minute), minVolumeAge.Truncate(time.Minute))
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}
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}
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return results, nil
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}
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// Scheduling implements the scheduling logic for vacuum tasks
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func Scheduling(task *types.Task, runningTasks []*types.Task, availableWorkers []*types.Worker, config base.TaskConfig) bool {
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vacuumConfig := config.(*Config)
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// Count running vacuum tasks
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runningVacuumCount := 0
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for _, runningTask := range runningTasks {
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if runningTask.Type == types.TaskTypeVacuum {
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runningVacuumCount++
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}
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}
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// Check concurrency limit
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if runningVacuumCount >= vacuumConfig.MaxConcurrent {
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return false
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}
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// Check for available workers with vacuum capability
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for _, worker := range availableWorkers {
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if worker.CurrentLoad < worker.MaxConcurrent {
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for _, capability := range worker.Capabilities {
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if capability == types.TaskTypeVacuum {
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return true
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}
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}
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}
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}
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return false
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}
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// CreateTask creates a new vacuum task instance
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func CreateTask(params types.TaskParams) (types.TaskInterface, error) {
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// Create and return the vacuum task using existing Task type
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return NewTask(params.Server, params.VolumeID), nil
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}
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