// Run executes the command. func (cmd *InfoCommand) Run(args ...string) error { // Parse flags. fs := flag.NewFlagSet("", flag.ContinueOnError) help := fs.Bool("h", false, "") if err := fs.Parse(args); err != nil { return err } else if *help { fmt.Fprintln(cmd.Stderr, cmd.Usage()) return ErrUsage } // Require database path. path := fs.Arg(0) if path == "" { return ErrPathRequired } else if _, err := os.Stat(path); os.IsNotExist(err) { return ErrFileNotFound } // Open the database. db, err := bolt.Open(path, 0666, nil) if err != nil { return err } defer db.Close() // Print basic database info. info := db.Info() fmt.Fprintf(cmd.Stdout, "Page Size: %d\n", info.PageSize) return nil }
// Run executes the command. func (cmd *CheckCommand) Run(args ...string) error { // Parse flags. fs := flag.NewFlagSet("", flag.ContinueOnError) help := fs.Bool("h", false, "") if err := fs.Parse(args); err != nil { return err } else if *help { fmt.Fprintln(cmd.Stderr, cmd.Usage()) return ErrUsage } // Require database path. path := fs.Arg(0) if path == "" { return ErrPathRequired } else if _, err := os.Stat(path); os.IsNotExist(err) { return ErrFileNotFound } // Open database. db, err := bolt.Open(path, 0666, nil) if err != nil { return err } defer db.Close() // Perform consistency check. return db.View(func(tx *bolt.Tx) error { var count int ch := tx.Check() loop: for { select { case err, ok := <-ch: if !ok { break loop } fmt.Fprintln(cmd.Stdout, err) count++ } } // Print summary of errors. if count > 0 { fmt.Fprintf(cmd.Stdout, "%d errors found\n", count) return ErrCorrupt } // Notify user that database is valid. fmt.Fprintln(cmd.Stdout, "OK") return nil }) }
func newBackend(path string, d time.Duration, limit int) *backend { db, err := bolt.Open(path, 0600, nil) if err != nil { log.Panicf("backend: cannot open database at %s (%v)", path, err) } b := &backend{ db: db, batchInterval: d, batchLimit: limit, stopc: make(chan struct{}), donec: make(chan struct{}), } b.batchTx = newBatchTx(b) go b.run() return b }
// Run executes the "bench" command. func (cmd *BenchCommand) Run(args ...string) error { // Parse CLI arguments. options, err := cmd.ParseFlags(args) if err != nil { return err } // Remove path if "-work" is not set. Otherwise keep path. if options.Work { fmt.Fprintf(cmd.Stdout, "work: %s\n", options.Path) } else { defer os.Remove(options.Path) } // Create database. db, err := bolt.Open(options.Path, 0666, nil) if err != nil { return err } db.NoSync = options.NoSync defer db.Close() // Write to the database. var results BenchResults if err := cmd.runWrites(db, options, &results); err != nil { return fmt.Errorf("write: %v", err) } // Read from the database. if err := cmd.runReads(db, options, &results); err != nil { return fmt.Errorf("bench: read: %s", err) } // Print results. fmt.Fprintf(os.Stderr, "# Write\t%v\t(%v/op)\t(%v op/sec)\n", results.WriteDuration, results.WriteOpDuration(), results.WriteOpsPerSecond()) fmt.Fprintf(os.Stderr, "# Read\t%v\t(%v/op)\t(%v op/sec)\n", results.ReadDuration, results.ReadOpDuration(), results.ReadOpsPerSecond()) fmt.Fprintln(os.Stderr, "") return nil }
// Run executes the command. func (cmd *StatsCommand) Run(args ...string) error { // Parse flags. fs := flag.NewFlagSet("", flag.ContinueOnError) help := fs.Bool("h", false, "") if err := fs.Parse(args); err != nil { return err } else if *help { fmt.Fprintln(cmd.Stderr, cmd.Usage()) return ErrUsage } // Require database path. path, prefix := fs.Arg(0), fs.Arg(1) if path == "" { return ErrPathRequired } else if _, err := os.Stat(path); os.IsNotExist(err) { return ErrFileNotFound } // Open database. db, err := bolt.Open(path, 0666, nil) if err != nil { return err } defer db.Close() return db.View(func(tx *bolt.Tx) error { var s bolt.BucketStats var count int if err := tx.ForEach(func(name []byte, b *bolt.Bucket) error { if bytes.HasPrefix(name, []byte(prefix)) { s.Add(b.Stats()) count += 1 } return nil }); err != nil { return err } fmt.Fprintf(cmd.Stdout, "Aggregate statistics for %d buckets\n\n", count) fmt.Fprintln(cmd.Stdout, "Page count statistics") fmt.Fprintf(cmd.Stdout, "\tNumber of logical branch pages: %d\n", s.BranchPageN) fmt.Fprintf(cmd.Stdout, "\tNumber of physical branch overflow pages: %d\n", s.BranchOverflowN) fmt.Fprintf(cmd.Stdout, "\tNumber of logical leaf pages: %d\n", s.LeafPageN) fmt.Fprintf(cmd.Stdout, "\tNumber of physical leaf overflow pages: %d\n", s.LeafOverflowN) fmt.Fprintln(cmd.Stdout, "Tree statistics") fmt.Fprintf(cmd.Stdout, "\tNumber of keys/value pairs: %d\n", s.KeyN) fmt.Fprintf(cmd.Stdout, "\tNumber of levels in B+tree: %d\n", s.Depth) fmt.Fprintln(cmd.Stdout, "Page size utilization") fmt.Fprintf(cmd.Stdout, "\tBytes allocated for physical branch pages: %d\n", s.BranchAlloc) var percentage int if s.BranchAlloc != 0 { percentage = int(float32(s.BranchInuse) * 100.0 / float32(s.BranchAlloc)) } fmt.Fprintf(cmd.Stdout, "\tBytes actually used for branch data: %d (%d%%)\n", s.BranchInuse, percentage) fmt.Fprintf(cmd.Stdout, "\tBytes allocated for physical leaf pages: %d\n", s.LeafAlloc) percentage = 0 if s.LeafAlloc != 0 { percentage = int(float32(s.LeafInuse) * 100.0 / float32(s.LeafAlloc)) } fmt.Fprintf(cmd.Stdout, "\tBytes actually used for leaf data: %d (%d%%)\n", s.LeafInuse, percentage) fmt.Fprintln(cmd.Stdout, "Bucket statistics") fmt.Fprintf(cmd.Stdout, "\tTotal number of buckets: %d\n", s.BucketN) percentage = int(float32(s.InlineBucketN) * 100.0 / float32(s.BucketN)) fmt.Fprintf(cmd.Stdout, "\tTotal number on inlined buckets: %d (%d%%)\n", s.InlineBucketN, percentage) percentage = 0 if s.LeafInuse != 0 { percentage = int(float32(s.InlineBucketInuse) * 100.0 / float32(s.LeafInuse)) } fmt.Fprintf(cmd.Stdout, "\tBytes used for inlined buckets: %d (%d%%)\n", s.InlineBucketInuse, percentage) return nil }) }
// Run executes the command. func (cmd *PagesCommand) Run(args ...string) error { // Parse flags. fs := flag.NewFlagSet("", flag.ContinueOnError) help := fs.Bool("h", false, "") if err := fs.Parse(args); err != nil { return err } else if *help { fmt.Fprintln(cmd.Stderr, cmd.Usage()) return ErrUsage } // Require database path. path := fs.Arg(0) if path == "" { return ErrPathRequired } else if _, err := os.Stat(path); os.IsNotExist(err) { return ErrFileNotFound } // Open database. db, err := bolt.Open(path, 0666, nil) if err != nil { return err } defer func() { _ = db.Close() }() // Write header. fmt.Fprintln(cmd.Stdout, "ID TYPE ITEMS OVRFLW") fmt.Fprintln(cmd.Stdout, "======== ========== ====== ======") return db.Update(func(tx *bolt.Tx) error { var id int for { p, err := tx.Page(id) if err != nil { return &PageError{ID: id, Err: err} } else if p == nil { break } // Only display count and overflow if this is a non-free page. var count, overflow string if p.Type != "free" { count = strconv.Itoa(p.Count) if p.OverflowCount > 0 { overflow = strconv.Itoa(p.OverflowCount) } } // Print table row. fmt.Fprintf(cmd.Stdout, "%-8d %-10s %-6s %-6s\n", p.ID, p.Type, count, overflow) // Move to the next non-overflow page. id += 1 if p.Type != "free" { id += p.OverflowCount } } return nil }) }