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path: root/lib/byteback/backup_directory.rb
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module Byteback
  # Represents a particular timestamped backup directory
  class Snapshot
    class << self
      # What order to remove snapshots in to regain disk space?
      #
      # Order backups by their closeness to defined backup times, which are
      # listed in a set order (i.e. today's backup is more important than yesterday's).
      #
      BACKUP_IMPORTANCE = [1, 2, 7, 14, 21, 28, 56, 112]

      def sort_by_importance(snapshots_unsorted, now = Time.now)
        return snapshots_unsorted if  snapshots_unsorted.size < 1

        #
        # Keep the last 7 days backups
        #
        snapshots_sorted   = []
        snapshots_unsorted = snapshots_unsorted.sort_by(&:time).reverse

        #
        # Group snapshots by host
        #
        snapshots_by_host = Hash.new { |h, k| h[k] = [] }

        snapshots_unsorted.each do |snapshot|
          snapshots_by_host[snapshot.host] << snapshot
        end

        #
        # We want the snapshot nearest to the middle of the day each day.
        #
        today_midday = Time.mktime(*([0, 0, 12] + now.utc.to_a.last(7)))

        #
        # We want today, and the previous seven days
        #
        targets = [today_midday]
        targets += 6.times.map { today_midday -= 86_400 }

        #
        # Now the previous four Sundays (we should bump on a week if today is a Sunday!)
        #
        today_midday -= (today_midday.wday == 0 ? 7 : today_midday.wday) * 86_400
        targets << today_midday
        targets += 3.times.map { today_midday -= 7 * 86_400 }

        #
        # Our 28 day periods are anchored on Time.at(0).  However this was a
        # Thursday, so we have to add 3 days to get it to Sunday.
        #
        targets << (today_midday -= ((today_midday.to_i / 86_400.0).floor % 28 - 3) * 86_400)

        #
        # Continue removing 28 day periods until we get beyond the oldest backup time.
        #
        targets << (today_midday -= 28 * 86_400) while today_midday > snapshots_unsorted.last.time

        #
        # This has records the last nearest snapshot for each host
        #
        last_nearest = {}

        #
        # For each target, and for each host, find the nearest snapshot
        #
        targets.each do |target|
          snapshots_by_host.each do |host, snapshots|
            next if snapshots.empty?
            nearest = snapshots.sort { |a, b| (a.time - target).abs <=> (b.time - target).abs }.first
            #
            # Don't process any more if the last snapshot for this for this
            # host was more recent, i.e. we've reached the oldest, and are
            # bouncing back again.
            #
            if last_nearest[host].nil? || last_nearest[host].time > nearest.time
              last_nearest[host] = nearest
              snapshots_by_host[host]  -= [nearest]
              snapshots_sorted         << nearest
            end
          end
        end

        #
        # Remove any snapshots we've already sorted and add in the remaining snapshots
        #
        snapshots_unsorted -= snapshots_sorted
        snapshots_sorted   += snapshots_unsorted

        snapshots_sorted
      end
    end

    attr_reader :backup_directory, :path

    def initialize(backup_directory, snapshot_path)
      @backup_directory = backup_directory
      @path = snapshot_path
      @time = Time.parse(File.basename(path)) # throws ArgumentError if it can't parse
      nil
    end

    attr_reader :time

    def host
      File.basename(File.dirname(path))
    end

    def <=>(b)
      time <=> b.time
    end

    def create!(from)
      system_no_error("/sbin/btrfs subvolume snapshot #{from} #{path}")
    end

    def delete!
      system_no_error("/sbin/btrfs subvolume delete #{path}")
    end

    # Returns the size of the given snapshot (runs du, may be slow)
    #
    # Would much prefer to take advantage of this feature:
    #   http://dustymabe.com/2013/09/22/btrfs-how-big-are-my-snapshots/
    # but it's not currently in Debian/wheezy.
    #
    def du
      `du -s -b #{path}`.to_i
    end

    protected

    def system_no_error(*args)
      args[-1] += ' > /dev/null' unless @verbose
      fail RuntimeError.new('Command failed: ' + args.join(' ')) unless
        system(*args)
    end
  end

  # Represent a directory full of backups where "current"  is a subvolume
  # which is snapshotted to frozen backup directories called e.g.
  # "yyyy-mm-ddThh:mm+zzzz".
  #
  class BackupDirectory
    class << self
      # Return all backup directories
      #
      def all
        Dir.new(ENV['HOME']).entries.map do |entry|
          next if entry[0] == '.'
          name = File.expand_path(ENV['HOME'] + '/' + entry)
          File.directory?(name + '/current') ? BackupDirectory.new(name) : nil
        end
          .compact
      end

      # Returns every snapshot in every backup directory
      #
      def all_snapshots
        all.map(&:snapshots).flatten
      end
    end

    attr_reader :dir

    def initialize(dir)
      @dir = Dir.new(dir)
      fail Errno::ENOENT unless File.directory?(dir)
      current
    end

    # Return total amount of free space in backup directory (bytes)
    #
    def free
      df = DiskFree.new(@dir.path)
      df.total - df.used
    end

    # Return an array of Times representing the current list of
    # snapshots.
    #
    def snapshots
      @dir.entries.map do |entry|
        next if entry[0] == '.' || entry == 'current'
        snapshot_path = File.expand_path(@dir.path + '/' + entry)
        next unless File.directory?(snapshot_path)
        begin
          Snapshot.new(self, snapshot_path)
        rescue ArgumentError => ae
          # directory name must represent a parseable Time
          nil
        end
      end
        .compact
    end

    # Create a new snapshot of 'current'
    #
    def new_snapshot!(time = Time.now)
      snapshot_path = time.strftime(dir.path + '/%Y-%m-%dT%H:%M%z')
      Snapshot.new(self, snapshot_path).create!(current.path)
    end

    def current
      Dir.new("#{dir.path}/current")
    end
  end
end