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path: root/src/redis-trib.rb
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#!/usr/bin/env ruby

# TODO (temporary here, we'll move this into the Github issues once
#       redis-trib initial implementation is completed).
#
# - Make sure that if the rehashing fails in the middle redis-trib will try
#   to recover.
# - When redis-trib performs a cluster check, if it detects a slot move in
#   progress it should prompt the user to continue the move from where it
#   stopped.
# - Gracefully handle Ctrl+C in move_slot to prompt the user if really stop
#   while rehashing, and performing the best cleanup possible if the user
#   forces the quit.
# - When doing "fix" set a global Fix to true, and prompt the user to
#   fix the problem if automatically fixable every time there is something
#   to fix. For instance:
#   1) If there is a node that pretend to receive a slot, or to migrate a
#      slot, but has no entries in that slot, fix it.
#   2) If there is a node having keys in slots that are not owned by it
#      fix this condition moving the entries in the same node.
#   3) Perform more possibly slow tests about the state of the cluster.
#   4) When aborted slot migration is detected, fix it.

require 'rubygems'
require 'redis'

ClusterHashSlots = 16384

def xputs(s)
    case s[0..2]
    when ">>>"
        color="29;1"
    when "[ER"
        color="31;1"
    when "[OK"
        color="32"
    when "[FA","***"
        color="33"
    else
        color=nil
    end

    color = nil if ENV['TERM'] != "xterm"
    print "\033[#{color}m" if color
    print s
    print "\033[0m" if color
    print "\n"
end

class ClusterNode
    def initialize(addr)
        s = addr.split(":")
        if s.length < 2
           puts "Invalid IP or Port (given as #{addr}) - use IP:Port format"
           exit 1
        end
        port = s.pop # removes port from split array
        ip = s.join(":") # if s.length > 1 here, it's IPv6, so restore address
        @r = nil
        @info = {}
        @info[:host] = ip
        @info[:port] = port
        @info[:slots] = {}
        @info[:migrating] = {}
        @info[:importing] = {}
        @info[:replicate] = false
        @dirty = false # True if we need to flush slots info into node.
        @friends = []
    end

    def friends
        @friends
    end

    def slots
        @info[:slots]
    end

    def has_flag?(flag)
        @info[:flags].index(flag)
    end

    def to_s
        "#{@info[:host]}:#{@info[:port]}"
    end

    def connect(o={})
        return if @r
        print "Connecting to node #{self}: "
        STDOUT.flush
        begin
            @r = Redis.new(:host => @info[:host], :port => @info[:port], :timeout => 60)
            @r.ping
        rescue
            xputs "[ERR] Sorry, can't connect to node #{self}"
            exit 1 if o[:abort]
            @r = nil
        end
        xputs "OK"
    end

    def assert_cluster
        info = @r.info
        if !info["cluster_enabled"] || info["cluster_enabled"].to_i == 0
            xputs "[ERR] Node #{self} is not configured as a cluster node."
            exit 1
        end
    end

    def assert_empty
        if !(@r.cluster("info").split("\r\n").index("cluster_known_nodes:1")) ||
            (@r.info['db0'])
            xputs "[ERR] Node #{self} is not empty. Either the node already knows other nodes (check with CLUSTER NODES) or contains some key in database 0."
            exit 1
        end
    end

    def load_info(o={})
        self.connect
        nodes = @r.cluster("nodes").split("\n")
        nodes.each{|n|
            # name addr flags role ping_sent ping_recv link_status slots
            split = n.split
            name,addr,flags,master_id,ping_sent,ping_recv,config_epoch,link_status = split[0..6]
            slots = split[8..-1]
            info = {
                :name => name,
                :addr => addr,
                :flags => flags.split(","),
                :replicate => master_id,
                :ping_sent => ping_sent.to_i,
                :ping_recv => ping_recv.to_i,
                :link_status => link_status
            }
            info[:replicate] = false if master_id == "-"

            if info[:flags].index("myself")
                @info = @info.merge(info)
                @info[:slots] = {}
                slots.each{|s|
                    if s[0..0] == '['
                        if s.index("->-") # Migrating
                            slot,dst = s[1..-1].split("->-")
                            @info[:migrating][slot.to_i] = dst
                        elsif s.index("-<-") # Importing
                            slot,src = s[1..-1].split("-<-")
                            @info[:importing][slot.to_i] = src
                        end
                    elsif s.index("-")
                        start,stop = s.split("-")
                        self.add_slots((start.to_i)..(stop.to_i))
                    else
                        self.add_slots((s.to_i)..(s.to_i))
                    end
                } if slots
                @dirty = false
                @r.cluster("info").split("\n").each{|e|
                    k,v=e.split(":")
                    k = k.to_sym
                    v.chop!
                    if k != :cluster_state
                        @info[k] = v.to_i
                    else
                        @info[k] = v
                    end
                }
            elsif o[:getfriends]
                @friends << info
            end
        }
    end

    def add_slots(slots)
        slots.each{|s|
            @info[:slots][s] = :new
        }
        @dirty = true
    end

    def set_as_replica(node_id)
        @info[:replicate] = node_id
        @dirty = true
    end

    def flush_node_config
        return if !@dirty
        if @info[:replicate]
            begin
                @r.cluster("replicate",@info[:replicate])
            rescue
                # If the cluster did not already joined it is possible that
                # the slave does not know the master node yet. So on errors
                # we return ASAP leaving the dirty flag set, to flush the
                # config later.
                return
            end
        else
            new = []
            @info[:slots].each{|s,val|
                if val == :new
                    new << s
                    @info[:slots][s] = true
                end
            }
            @r.cluster("addslots",*new)
        end
        @dirty = false
    end

    def info_string
        # We want to display the hash slots assigned to this node
        # as ranges, like in: "1-5,8-9,20-25,30"
        #
        # Note: this could be easily written without side effects,
        # we use 'slots' just to split the computation into steps.

        # First step: we want an increasing array of integers
        # for instance: [1,2,3,4,5,8,9,20,21,22,23,24,25,30]
        slots = @info[:slots].keys.sort

        # As we want to aggregate adjacent slots we convert all the
        # slot integers into ranges (with just one element)
        # So we have something like [1..1,2..2, ... and so forth.
        slots.map!{|x| x..x}

        # Finally we group ranges with adjacent elements.
        slots = slots.reduce([]) {|a,b|
            if !a.empty? && b.first == (a[-1].last)+1
                a[0..-2] + [(a[-1].first)..(b.last)]
            else
                a + [b]
            end
        }

        # Now our task is easy, we just convert ranges with just one
        # element into a number, and a real range into a start-end format.
        # Finally we join the array using the comma as separator.
        slots = slots.map{|x|
            x.count == 1 ? x.first.to_s : "#{x.first}-#{x.last}"
        }.join(",")

        role = self.has_flag?("master") ? "M" : "S"

        if self.info[:replicate] and @dirty
            is = "S: #{self.info[:name]} #{self.to_s}"
        else
            is = "#{role}: #{self.info[:name]} #{self.to_s}\n"+
            "   slots:#{slots} (#{self.slots.length} slots) "+
            "#{(self.info[:flags]-["myself"]).join(",")}"
        end
        if self.info[:replicate]
            is += "\n   replicates #{info[:replicate]}"
        elsif self.has_flag?("master") && self.info[:replicas]
            is += "\n   #{info[:replicas].length} additional replica(s)"
        end
        is
    end

    # Return a single string representing nodes and associated slots.
    # TODO: remove slaves from config when slaves will be handled
    # by Redis Cluster.
    def get_config_signature
        config = []
        @r.cluster("nodes").each_line{|l|
            s = l.split
            slots = s[8..-1].select {|x| x[0..0] != "["}
            next if slots.length == 0
            config << s[0]+":"+(slots.sort.join(","))
        }
        config.sort.join("|")
    end

    def info
        @info
    end

    def is_dirty?
        @dirty
    end

    def r
        @r
    end
end

class RedisTrib
    def initialize
        @nodes = []
        @fix = false
        @errors = []
        @timeout = 15000
    end

    def check_arity(req_args, num_args)
        if ((req_args > 0 and num_args != req_args) ||
           (req_args < 0 and num_args < req_args.abs))
           xputs "[ERR] Wrong number of arguments for specified sub command"
           exit 1
        end
    end

    def add_node(node)
        @nodes << node
    end

    def cluster_error(msg)
        @errors << msg
        xputs msg
    end

    def get_node_by_name(name)
        @nodes.each{|n|
            return n if n.info[:name] == name.downcase
        }
        return nil
    end

    # This function returns the master that has the least number of replicas
    # in the cluster. If there are multiple masters with the same smaller
    # number of replicas, one at random is returned.
    def get_master_with_least_replicas
        masters = @nodes.select{|n| n.has_flag? "master"}
        sorted = masters.sort{|a,b|
            a.info[:replicas].length <=> b.info[:replicas].length
        }
        sorted[0]
    end

    def check_cluster
        xputs ">>> Performing Cluster Check (using node #{@nodes[0]})"
        show_nodes
        check_config_consistency
        check_open_slots
        check_slots_coverage
    end

    # Merge slots of every known node. If the resulting slots are equal
    # to ClusterHashSlots, then all slots are served.
    def covered_slots
        slots = {}
        @nodes.each{|n|
            slots = slots.merge(n.slots)
        }
        slots
    end

    def check_slots_coverage
        xputs ">>> Check slots coverage..."
        slots = covered_slots
        if slots.length == ClusterHashSlots
            xputs "[OK] All #{ClusterHashSlots} slots covered."
        else
            cluster_error \
                "[ERR] Not all #{ClusterHashSlots} slots are covered by nodes."
            fix_slots_coverage if @fix
        end
    end

    def check_open_slots
        xputs ">>> Check for open slots..."
        open_slots = []
        @nodes.each{|n|
            if n.info[:migrating].size > 0
                cluster_error \
                    "[WARNING] Node #{n} has slots in migrating state (#{n.info[:migrating].keys.join(",")})."
                open_slots += n.info[:migrating].keys
            elsif n.info[:importing].size > 0
                cluster_error \
                    "[WARNING] Node #{n} has slots in importing state (#{n.info[:importing].keys.join(",")})."
                open_slots += n.info[:importing].keys
            end
        }
        open_slots.uniq!
        if open_slots.length > 0
            xputs "[WARNING] The following slots are open: #{open_slots.join(",")}"
        end
        if @fix
            open_slots.each{|slot| fix_open_slot slot}
        end
    end

    def nodes_with_keys_in_slot(slot)
        nodes = []
        @nodes.each{|n|
            nodes << n if n.r.cluster("getkeysinslot",slot,1).length > 0
        }
        nodes
    end

    def fix_slots_coverage
        not_covered = (0...ClusterHashSlots).to_a - covered_slots.keys
        xputs ">>> Fixing slots coverage..."
        xputs "List of not covered slots: " + not_covered.join(",")

        # For every slot, take action depending on the actual condition:
        # 1) No node has keys for this slot.
        # 2) A single node has keys for this slot.
        # 3) Multiple nodes have keys for this slot.
        slots = {}
        not_covered.each{|slot|
            nodes = nodes_with_keys_in_slot(slot)
            slots[slot] = nodes
            xputs "Slot #{slot} has keys in #{nodes.length} nodes: #{nodes.join}"
        }

        none = slots.select {|k,v| v.length == 0}
        single = slots.select {|k,v| v.length == 1}
        multi = slots.select {|k,v| v.length > 1}

        # Handle case "1": keys in no node.
        if none.length > 0
            xputs "The folowing uncovered slots have no keys across the cluster:"
            xputs none.keys.join(",")
            yes_or_die "Fix these slots by covering with a random node?"
            none.each{|slot,nodes|
                node = @nodes.sample
                xputs ">>> Covering slot #{slot} with #{node}"
                node.r.cluster("addslots",slot)
            }
        end

        # Handle case "2": keys only in one node.
        if single.length > 0
            xputs "The folowing uncovered slots have keys in just one node:"
            puts single.keys.join(",")
            yes_or_die "Fix these slots by covering with those nodes?"
            single.each{|slot,nodes|
                xputs ">>> Covering slot #{slot} with #{nodes[0]}"
                nodes[0].r.cluster("addslots",slot)
            }
        end

        # Handle case "3": keys in multiple nodes.
        if multi.length > 0
            xputs "The folowing uncovered slots have keys in multiple nodes:"
            xputs multi.keys.join(",")
            yes_or_die "Fix these slots by moving keys into a single node?"
            multi.each{|slot,nodes|
                xputs ">>> Covering slot #{slot} moving keys to #{nodes[0]}"
                # TODO
                # 1) Set all nodes as "MIGRATING" for this slot, so that we
                # can access keys in the hash slot using ASKING.
                # 2) Move everything to node[0]
                # 3) Clear MIGRATING from nodes, and ADDSLOTS the slot to
                # node[0].
                raise "TODO: Work in progress"
            }
        end
    end

    # Return the owner of the specified slot
    def get_slot_owner(slot)
        @nodes.each{|n|
            n.slots.each{|s,_|
                return n if s == slot
            }
        }
        nil
    end

    # Slot 'slot' was found to be in importing or migrating state in one or
    # more nodes. This function fixes this condition by migrating keys where
    # it seems more sensible.
    def fix_open_slot(slot)
        puts ">>> Fixing open slot #{slot}"

        # Try to obtain the current slot owner, according to the current
        # nodes configuration.
        owner = get_slot_owner(slot)

        # If there is no slot owner, set as owner the slot with the biggest
        # number of keys, among the set of migrating / importing nodes.
        if !owner
            xputs "*** Fix me, some work to do here."
            # Select owner...
            # Use ADDSLOTS to assign the slot.
            exit 1
        end

        migrating = []
        importing = []
        @nodes.each{|n|
            next if n.has_flag? "slave"
            if n.info[:migrating][slot]
                migrating << n
            elsif n.info[:importing][slot]
                importing << n
            elsif n.r.cluster("countkeysinslot",slot) > 0 && n != owner
                xputs "*** Found keys about slot #{slot} in node #{n}!"
                importing << n
            end
        }
        puts "Set as migrating in: #{migrating.join(",")}"
        puts "Set as importing in: #{importing.join(",")}"

        # Case 1: The slot is in migrating state in one slot, and in
        #         importing state in 1 slot. That's trivial to address.
        if migrating.length == 1 && importing.length == 1
            move_slot(migrating[0],importing[0],slot,:verbose=>true,:fix=>true)
        # Case 2: There are multiple nodes that claim the slot as importing,
        # they probably got keys about the slot after a restart so opened
        # the slot. In this case we just move all the keys to the owner
        # according to the configuration.
        elsif migrating.length == 0 && importing.length > 0
            xputs ">>> Moving all the #{slot} slot keys to its owner #{owner}"
            importing.each {|node|
                next if node == owner
                move_slot(node,owner,slot,:verbose=>true,:fix=>true,:cold=>true)
                xputs ">>> Setting #{slot} as STABLE in #{node}"
                node.r.cluster("setslot",slot,"stable")
            }
        # Case 3: There are no slots claiming to be in importing state, but
        # there is a migrating node that actually don't have any key. We
        # can just close the slot, probably a reshard interrupted in the middle.
        elsif importing.length == 0 && migrating.length == 1 &&
              migrating[0].r.cluster("getkeysinslot",slot,10).length == 0
            migrating[0].r.cluster("setslot",slot,"stable")
        else
            xputs "[ERR] Sorry, Redis-trib can't fix this slot yet (work in progress). Slot is set as migrating in #{migrating.join(",")}, as importing in #{importing.join(",")}, owner is #{owner}"
        end
    end

    # Check if all the nodes agree about the cluster configuration
    def check_config_consistency
        if !is_config_consistent?
            cluster_error "[ERR] Nodes don't agree about configuration!"
        else
            xputs "[OK] All nodes agree about slots configuration."
        end
    end

    def is_config_consistent?
        signatures=[]
        @nodes.each{|n|
            signatures << n.get_config_signature
        }
        return signatures.uniq.length == 1
    end

    def wait_cluster_join
        print "Waiting for the cluster to join"
        while !is_config_consistent?
            print "."
            STDOUT.flush
            sleep 1
        end
        print "\n"
    end

    def alloc_slots
        nodes_count = @nodes.length
        masters_count = @nodes.length / (@replicas+1)
        masters = []

        # The first step is to split instances by IP. This is useful as
        # we'll try to allocate master nodes in different physical machines
        # (as much as possible) and to allocate slaves of a given master in
        # different physical machines as well.
        #
        # This code assumes just that if the IP is different, than it is more
        # likely that the instance is running in a different physical host
        # or at least a different virtual machine.
        ips = {}
        @nodes.each{|n|
            ips[n.info[:host]] = [] if !ips[n.info[:host]]
            ips[n.info[:host]] << n
        }

        # Select master instances
        puts "Using #{masters_count} masters:"
        interleaved = []
        stop = false
        while not stop do
            # Take one node from each IP until we run out of nodes
            # across every IP.
            ips.each do |ip,nodes|
                if nodes.empty?
                    # if this IP has no remaining nodes, check for termination
                    if interleaved.length == nodes_count
                        # stop when 'interleaved' has accumulated all nodes
                        stop = true
                        next
                    end
                else
                    # else, move one node from this IP to 'interleaved'
                    interleaved.push nodes.shift
                end
            end
        end

        masters = interleaved.slice!(0, masters_count)
        nodes_count -= masters.length

        masters.each{|m| puts m}

        # Alloc slots on masters
        slots_per_node = ClusterHashSlots.to_f / masters_count
        first = 0
        cursor = 0.0
        masters.each_with_index{|n,masternum|
            last = (cursor+slots_per_node-1).round
            if last > ClusterHashSlots || masternum == masters.length-1
                last = ClusterHashSlots-1
            end
            last = first if last < first # Min step is 1.
            n.add_slots first..last
            first = last+1
            cursor += slots_per_node
        }

        # Select N replicas for every master.
        # We try to split the replicas among all the IPs with spare nodes
        # trying to avoid the host where the master is running, if possible.
        #
        # Note we loop two times.  The first loop assigns the requested
        # number of replicas to each master.  The second loop assigns any
        # remaining instances as extra replicas to masters.  Some masters
        # may end up with more than their requested number of replicas, but
        # all nodes will be used.
        assignment_verbose = false

        [:requested,:unused].each do |assign|
            masters.each do |m|
                assigned_replicas = 0
                while assigned_replicas < @replicas
                    break if nodes_count == 0
                    if assignment_verbose
                        if assign == :requested
                            puts "Requesting total of #{@replicas} replicas " \
                                 "(#{assigned_replicas} replicas assigned " \
                                 "so far with #{nodes_count} total remaining)."
                        elsif assign == :unused
                            puts "Assigning extra instance to replication " \
                                 "role too (#{nodes_count} remaining)."
                        end
                    end

                    # Return the first node not matching our current master
                    node = interleaved.find{|n| n.info[:host] != m.info[:host]}

                    # If we found a node, use it as a best-first match.
                    # Otherwise, we didn't find a node on a different IP, so we
                    # go ahead and use a same-IP replica.
                    if node
                        slave = node
                        interleaved.delete node
                    else
                        slave = interleaved.shift
                    end
                    slave.set_as_replica(m.info[:name])
                    nodes_count -= 1
                    assigned_replicas += 1
                    puts "Adding replica #{slave} to #{m}"

                    # If we are in the "assign extra nodes" loop,
                    # we want to assign one extra replica to each
                    # master before repeating masters.
                    # This break lets us assign extra replicas to masters
                    # in a round-robin way.
                    break if assign == :unused
                end
            end
        end
    end

    def flush_nodes_config
        @nodes.each{|n|
            n.flush_node_config
        }
    end

    def show_nodes
        @nodes.each{|n|
            xputs n.info_string
        }
    end

    # Redis Cluster config epoch collision resolution code is able to eventually
    # set a different epoch to each node after a new cluster is created, but
    # it is slow compared to assign a progressive config epoch to each node
    # before joining the cluster. However we do just a best-effort try here
    # since if we fail is not a problem.
    def assign_config_epoch
        config_epoch = 1
        @nodes.each{|n|
            begin
                n.r.cluster("set-config-epoch",config_epoch)
            rescue
            end
            config_epoch += 1
        }
    end

    def join_cluster
        # We use a brute force approach to make sure the node will meet
        # each other, that is, sending CLUSTER MEET messages to all the nodes
        # about the very same node.
        # Thanks to gossip this information should propagate across all the
        # cluster in a matter of seconds.
        first = false
        @nodes.each{|n|
            if !first then first = n.info; next; end # Skip the first node
            n.r.cluster("meet",first[:host],first[:port])
        }
    end

    def yes_or_die(msg)
        print "#{msg} (type 'yes' to accept): "
        STDOUT.flush
        if !(STDIN.gets.chomp.downcase == "yes")
            xputs "*** Aborting..."
            exit 1
        end
    end

    def load_cluster_info_from_node(nodeaddr)
        node = ClusterNode.new(nodeaddr)
        node.connect(:abort => true)
        node.assert_cluster
        node.load_info(:getfriends => true)
        add_node(node)
        node.friends.each{|f|
            next if f[:flags].index("noaddr") ||
                    f[:flags].index("disconnected") ||
                    f[:flags].index("fail")
            fnode = ClusterNode.new(f[:addr])
            fnode.connect()
            next if !fnode.r
            begin
                fnode.load_info()
                add_node(fnode)
            rescue => e
                xputs "[ERR] Unable to load info for node #{fnode}"
            end
        }
        populate_nodes_replicas_info
    end

    # This function is called by load_cluster_info_from_node in order to
    # add additional information to every node as a list of replicas.
    def populate_nodes_replicas_info
        # Start adding the new field to every node.
        @nodes.each{|n|
            n.info[:replicas] = []
        }

        # Populate the replicas field using the replicate field of slave
        # nodes.
        @nodes.each{|n|
            if n.info[:replicate]
                master = get_node_by_name(n.info[:replicate])
                if !master
                    xputs "*** WARNING: #{n} claims to be slave of unknown node ID #{n.info[:replicate]}."
                else
                    master.info[:replicas] << n
                end
            end
        }
    end

    # Given a list of source nodes return a "resharding plan"
    # with what slots to move in order to move "numslots" slots to another
    # instance.
    def compute_reshard_table(sources,numslots)
        moved = []
        # Sort from bigger to smaller instance, for two reasons:
        # 1) If we take less slots than instances it is better to start
        #    getting from the biggest instances.
        # 2) We take one slot more from the first instance in the case of not
        #    perfect divisibility. Like we have 3 nodes and need to get 10
        #    slots, we take 4 from the first, and 3 from the rest. So the
        #    biggest is always the first.
        sources = sources.sort{|a,b| b.slots.length <=> a.slots.length}
        source_tot_slots = sources.inject(0) {|sum,source|
            sum+source.slots.length
        }
        sources.each_with_index{|s,i|
            # Every node will provide a number of slots proportional to the
            # slots it has assigned.
            n = (numslots.to_f/source_tot_slots*s.slots.length)
            if i == 0
                n = n.ceil
            else
                n = n.floor
            end
            s.slots.keys.sort[(0...n)].each{|slot|
                if moved.length < numslots
                    moved << {:source => s, :slot => slot}
                end
            }
        }
        return moved
    end

    def show_reshard_table(table)
        table.each{|e|
            puts "    Moving slot #{e[:slot]} from #{e[:source].info[:name]}"
        }
    end

    # Move slots between source and target nodes using MIGRATE.
    #
    # Options:
    # :verbose -- Print a dot for every moved key.
    # :fix     -- We are moving in the context of a fix. Use REPLACE.
    # :cold    -- Move keys without opening / reconfiguring the nodes.
    def move_slot(source,target,slot,o={})
        # We start marking the slot as importing in the destination node,
        # and the slot as migrating in the target host. Note that the order of
        # the operations is important, as otherwise a client may be redirected
        # to the target node that does not yet know it is importing this slot.
        print "Moving slot #{slot} from #{source} to #{target}: "; STDOUT.flush
        if !o[:cold]
            target.r.cluster("setslot",slot,"importing",source.info[:name])
            source.r.cluster("setslot",slot,"migrating",target.info[:name])
        end
        # Migrate all the keys from source to target using the MIGRATE command
        while true
            keys = source.r.cluster("getkeysinslot",slot,10)
            break if keys.length == 0
            keys.each{|key|
                begin
                    source.r.client.call(["migrate",target.info[:host],target.info[:port],key,0,@timeout])
                rescue => e
                    if o[:fix] && e.to_s =~ /BUSYKEY/
                        xputs "*** Target key #{key} exists. Replacing it for FIX."
                        source.r.client.call(["migrate",target.info[:host],target.info[:port],key,0,@timeout,:replace])
                    else
                        puts ""
                        xputs "[ERR] #{e}"
                        exit 1
                    end
                end
                print "." if o[:verbose]
                STDOUT.flush
            }
        end

        puts
        # Set the new node as the owner of the slot in all the known nodes.
        if !o[:cold]
            @nodes.each{|n|
                n.r.cluster("setslot",slot,"node",target.info[:name])
            }
        end
    end

    # redis-trib subcommands implementations

    def check_cluster_cmd(argv,opt)
        load_cluster_info_from_node(argv[0])
        check_cluster
    end

    def fix_cluster_cmd(argv,opt)
        @fix = true
        @timeout = opt['timeout'].to_i if opt['timeout']

        load_cluster_info_from_node(argv[0])
        check_cluster
    end

    def reshard_cluster_cmd(argv,opt)
        load_cluster_info_from_node(argv[0])
        check_cluster
        if @errors.length != 0
            puts "*** Please fix your cluster problems before resharding"
            exit 1
        end

        @timeout = opt['timeout'].to_i if opt['timeout'].to_i

        # Get number of slots
        if opt['slots']
            numslots = opt['slots'].to_i
        else
            numslots = 0
            while numslots <= 0 or numslots > ClusterHashSlots
                print "How many slots do you want to move (from 1 to #{ClusterHashSlots})? "
                numslots = STDIN.gets.to_i
            end
        end

        # Get the target instance
        if opt['to']
            target = get_node_by_name(opt['to'])
            if !target || target.has_flag?("slave")
                xputs "*** The specified node is not known or not a master, please retry."
                exit 1
            end
        else
            target = nil
            while not target
                print "What is the receiving node ID? "
                target = get_node_by_name(STDIN.gets.chop)
                if !target || target.has_flag?("slave")
                    xputs "*** The specified node is not known or not a master, please retry."
                    target = nil
                end
            end
        end

        # Get the source instances
        sources = []
        if opt['from']
            opt['from'].split(',').each{|node_id|
                if node_id == "all"
                    sources = "all"
                    break
                end
                src = get_node_by_name(node_id)
                if !src || src.has_flag?("slave")
                    xputs "*** The specified node is not known or is not a master, please retry."
                    exit 1
                end
                sources << src
            }
        else
            xputs "Please enter all the source node IDs."
            xputs "  Type 'all' to use all the nodes as source nodes for the hash slots."
            xputs "  Type 'done' once you entered all the source nodes IDs."
            while true
                print "Source node ##{sources.length+1}:"
                line = STDIN.gets.chop
                src = get_node_by_name(line)
                if line == "done"
                    break
                elsif line == "all"
                    sources = "all"
                    break
                elsif !src || src.has_flag?("slave")
                    xputs "*** The specified node is not known or is not a master, please retry."
                elsif src.info[:name] == target.info[:name]
                    xputs "*** It is not possible to use the target node as source node."
                else
                    sources << src
                end
            end
        end

        if sources.length == 0
            puts "*** No source nodes given, operation aborted"
            exit 1
        end

        # Handle soures == all.
        if sources == "all"
            sources = []
            @nodes.each{|n|
                next if n.info[:name] == target.info[:name]
                next if n.has_flag?("slave")
                sources << n
            }
        end

        # Check if the destination node is the same of any source nodes.
        if sources.index(target)
            xputs "*** Target node is also listed among the source nodes!"
            exit 1
        end

        puts "\nReady to move #{numslots} slots."
        puts "  Source nodes:"
        sources.each{|s| puts "    "+s.info_string}
        puts "  Destination node:"
        puts "    #{target.info_string}"
        reshard_table = compute_reshard_table(sources,numslots)
        puts "  Resharding plan:"
        show_reshard_table(reshard_table)
        if !opt['yes']
            print "Do you want to proceed with the proposed reshard plan (yes/no)? "
            yesno = STDIN.gets.chop
            exit(1) if (yesno != "yes")
        end
        reshard_table.each{|e|
            move_slot(e[:source],target,e[:slot],:verbose=>true)
        }
    end

    # This is an helper function for create_cluster_cmd that verifies if
    # the number of nodes and the specified replicas have a valid configuration
    # where there are at least three master nodes and enough replicas per node.
    def check_create_parameters
        masters = @nodes.length/(@replicas+1)
        if masters < 3
            puts "*** ERROR: Invalid configuration for cluster creation."
            puts "*** Redis Cluster requires at least 3 master nodes."
            puts "*** This is not possible with #{@nodes.length} nodes and #{@replicas} replicas per node."
            puts "*** At least #{3*(@replicas+1)} nodes are required."
            exit 1
        end
    end

    def create_cluster_cmd(argv,opt)
        opt = {'replicas' => 0}.merge(opt)
        @replicas = opt['replicas'].to_i

        xputs ">>> Creating cluster"
        argv[0..-1].each{|n|
            node = ClusterNode.new(n)
            node.connect(:abort => true)
            node.assert_cluster
            node.load_info
            node.assert_empty
            add_node(node)
        }
        check_create_parameters
        xputs ">>> Performing hash slots allocation on #{@nodes.length} nodes..."
        alloc_slots
        show_nodes
        yes_or_die "Can I set the above configuration?"
        flush_nodes_config
        xputs ">>> Nodes configuration updated"
        xputs ">>> Assign a different config epoch to each node"
        assign_config_epoch
        xputs ">>> Sending CLUSTER MEET messages to join the cluster"
        join_cluster
        # Give one second for the join to start, in order to avoid that
        # wait_cluster_join will find all the nodes agree about the config as
        # they are still empty with unassigned slots.
        sleep 1
        wait_cluster_join
        flush_nodes_config # Useful for the replicas
        check_cluster
    end

    def addnode_cluster_cmd(argv,opt)
        xputs ">>> Adding node #{argv[0]} to cluster #{argv[1]}"

        # Check the existing cluster
        load_cluster_info_from_node(argv[1])
        check_cluster

        # If --master-id was specified, try to resolve it now so that we
        # abort before starting with the node configuration.
        if opt['slave']
            if opt['master-id']
                master = get_node_by_name(opt['master-id'])
                if !master
                    xputs "[ERR] No such master ID #{opt['master-id']}"
                end
            else
                master = get_master_with_least_replicas
                xputs "Automatically selected master #{master}"
            end
        end

        # Add the new node
        new = ClusterNode.new(argv[0])
        new.connect(:abort => true)
        new.assert_cluster
        new.load_info
        new.assert_empty
        first = @nodes.first.info
        add_node(new)

        # Send CLUSTER MEET command to the new node
        xputs ">>> Send CLUSTER MEET to node #{new} to make it join the cluster."
        new.r.cluster("meet",first[:host],first[:port])

        # Additional configuration is needed if the node is added as
        # a slave.
        if opt['slave']
            wait_cluster_join
            xputs ">>> Configure node as replica of #{master}."
            new.r.cluster("replicate",master.info[:name])
        end
        xputs "[OK] New node added correctly."
    end

    def delnode_cluster_cmd(argv,opt)
        id = argv[1].downcase
        xputs ">>> Removing node #{id} from cluster #{argv[0]}"

        # Load cluster information
        load_cluster_info_from_node(argv[0])

        # Check if the node exists and is not empty
        node = get_node_by_name(id)

        if !node
            xputs "[ERR] No such node ID #{id}"
            exit 1
        end

        if node.slots.length != 0
            xputs "[ERR] Node #{node} is not empty! Reshard data away and try again."
            exit 1
        end

        # Send CLUSTER FORGET to all the nodes but the node to remove
        xputs ">>> Sending CLUSTER FORGET messages to the cluster..."
        @nodes.each{|n|
            next if n == node
            if n.info[:replicate] && n.info[:replicate].downcase == id
                # Reconfigure the slave to replicate with some other node
                master = get_master_with_least_replicas
                xputs ">>> #{n} as replica of #{master}"
                n.r.cluster("replicate",master.info[:name])
            end
            n.r.cluster("forget",argv[1])
        }

        # Finally shutdown the node
        xputs ">>> SHUTDOWN the node."
        node.r.shutdown
    end

    def set_timeout_cluster_cmd(argv,opt)
        timeout = argv[1].to_i
        if timeout < 100
            puts "Setting a node timeout of less than 100 milliseconds is a bad idea."
            exit 1
        end

        # Load cluster information
        load_cluster_info_from_node(argv[0])
        ok_count = 0
        err_count = 0

        # Send CLUSTER FORGET to all the nodes but the node to remove
        xputs ">>> Reconfiguring node timeout in every cluster node..."
        @nodes.each{|n|
            begin
                n.r.config("set","cluster-node-timeout",timeout)
                n.r.config("rewrite")
                ok_count += 1
                xputs "*** New timeout set for #{n}"
            rescue => e
                puts "ERR setting node-timeot for #{n}: #{e}"
                err_count += 1
            end
        }
        xputs ">>> New node timeout set. #{ok_count} OK, #{err_count} ERR."
    end

    def call_cluster_cmd(argv,opt)
        cmd = argv[1..-1]
        cmd[0] = cmd[0].upcase

        # Load cluster information
        load_cluster_info_from_node(argv[0])
        xputs ">>> Calling #{cmd.join(" ")}"
        @nodes.each{|n|
            begin
                res = n.r.send(*cmd)
                puts "#{n}: #{res}"
            rescue => e
                puts "#{n}: #{e}"
            end
        }
    end

    def import_cluster_cmd(argv,opt)
        source_addr = opt['from']
        xputs ">>> Importing data from #{source_addr} to cluster #{argv[1]}"
        use_copy = opt['copy']
        use_replace = opt['replace']
        
        # Check the existing cluster.
        load_cluster_info_from_node(argv[0])
        check_cluster

        # Connect to the source node.
        xputs ">>> Connecting to the source Redis instance"
        src_host,src_port = source_addr.split(":")
        source = Redis.new(:host =>src_host, :port =>src_port)
        if source.info['cluster_enabled'].to_i == 1
            xputs "[ERR] The source node should not be a cluster node."
        end
        xputs "*** Importing #{source.dbsize} keys from DB 0"

        # Build a slot -> node map
        slots = {}
        @nodes.each{|n|
            n.slots.each{|s,_|
                slots[s] = n
            }
        }

        # Use SCAN to iterate over the keys, migrating to the
        # right node as needed.
        cursor = nil
        while cursor != 0
            cursor,keys = source.scan(cursor, :count => 1000)
            cursor = cursor.to_i
            keys.each{|k|
                # Migrate keys using the MIGRATE command.
                slot = key_to_slot(k)
                target = slots[slot]
                print "Migrating #{k} to #{target}: "
                STDOUT.flush
                begin
                    cmd = ["migrate",target.info[:host],target.info[:port],k,0,@timeout]
                    cmd << :copy if use_copy
                    cmd << :replace if use_replace
                    source.client.call(cmd)
                rescue => e
                    puts e
                else
                    puts "OK"
                end
            }
        end
    end

    def help_cluster_cmd(argv,opt)
        show_help
        exit 0
    end

    # Parse the options for the specific command "cmd".
    # Returns an hash populate with option => value pairs, and the index of
    # the first non-option argument in ARGV.
    def parse_options(cmd)
        idx = 1 ; # Current index into ARGV
        options={}
        while idx < ARGV.length && ARGV[idx][0..1] == '--'
            if ARGV[idx][0..1] == "--"
                option = ARGV[idx][2..-1]
                idx += 1
                if ALLOWED_OPTIONS[cmd] == nil || ALLOWED_OPTIONS[cmd][option] == nil
                    puts "Unknown option '#{option}' for command '#{cmd}'"
                    exit 1
                end
                if ALLOWED_OPTIONS[cmd][option]
                    value = ARGV[idx]
                    idx += 1
                else
                    value = true
                end
                options[option] = value
            else
                # Remaining arguments are not options.
                break
            end
        end

        # Enforce mandatory options
        if ALLOWED_OPTIONS[cmd]
            ALLOWED_OPTIONS[cmd].each {|option,val|
                if !options[option] && val == :required
                    puts "Option '--#{option}' is required "+ \
                         "for subcommand '#{cmd}'"
                    exit 1
                end
            }
        end
        return options,idx
    end
end

#################################################################################
# Libraries
#
# We try to don't depend on external libs since this is a critical part
# of Redis Cluster.
#################################################################################

# This is the CRC16 algorithm used by Redis Cluster to hash keys.
# Implementation according to CCITT standards.
#
# This is actually the XMODEM CRC 16 algorithm, using the
# following parameters:
#
# Name                       : "XMODEM", also known as "ZMODEM", "CRC-16/ACORN"
# Width                      : 16 bit
# Poly                       : 1021 (That is actually x^16 + x^12 + x^5 + 1)
# Initialization             : 0000
# Reflect Input byte         : False
# Reflect Output CRC         : False
# Xor constant to output CRC : 0000
# Output for "123456789"     : 31C3

module RedisClusterCRC16
    def RedisClusterCRC16.crc16(bytes)
        crc = 0
        bytes.each_byte{|b|
            crc = ((crc<<8) & 0xffff) ^ XMODEMCRC16Lookup[((crc>>8)^b) & 0xff]
        }
        crc
    end

private
    XMODEMCRC16Lookup = [
        0x0000,0x1021,0x2042,0x3063,0x4084,0x50a5,0x60c6,0x70e7,
        0x8108,0x9129,0xa14a,0xb16b,0xc18c,0xd1ad,0xe1ce,0xf1ef,
        0x1231,0x0210,0x3273,0x2252,0x52b5,0x4294,0x72f7,0x62d6,
        0x9339,0x8318,0xb37b,0xa35a,0xd3bd,0xc39c,0xf3ff,0xe3de,
        0x2462,0x3443,0x0420,0x1401,0x64e6,0x74c7,0x44a4,0x5485,
        0xa56a,0xb54b,0x8528,0x9509,0xe5ee,0xf5cf,0xc5ac,0xd58d,
        0x3653,0x2672,0x1611,0x0630,0x76d7,0x66f6,0x5695,0x46b4,
        0xb75b,0xa77a,0x9719,0x8738,0xf7df,0xe7fe,0xd79d,0xc7bc,
        0x48c4,0x58e5,0x6886,0x78a7,0x0840,0x1861,0x2802,0x3823,
        0xc9cc,0xd9ed,0xe98e,0xf9af,0x8948,0x9969,0xa90a,0xb92b,
        0x5af5,0x4ad4,0x7ab7,0x6a96,0x1a71,0x0a50,0x3a33,0x2a12,
        0xdbfd,0xcbdc,0xfbbf,0xeb9e,0x9b79,0x8b58,0xbb3b,0xab1a,
        0x6ca6,0x7c87,0x4ce4,0x5cc5,0x2c22,0x3c03,0x0c60,0x1c41,
        0xedae,0xfd8f,0xcdec,0xddcd,0xad2a,0xbd0b,0x8d68,0x9d49,
        0x7e97,0x6eb6,0x5ed5,0x4ef4,0x3e13,0x2e32,0x1e51,0x0e70,
        0xff9f,0xefbe,0xdfdd,0xcffc,0xbf1b,0xaf3a,0x9f59,0x8f78,
        0x9188,0x81a9,0xb1ca,0xa1eb,0xd10c,0xc12d,0xf14e,0xe16f,
        0x1080,0x00a1,0x30c2,0x20e3,0x5004,0x4025,0x7046,0x6067,
        0x83b9,0x9398,0xa3fb,0xb3da,0xc33d,0xd31c,0xe37f,0xf35e,
        0x02b1,0x1290,0x22f3,0x32d2,0x4235,0x5214,0x6277,0x7256,
        0xb5ea,0xa5cb,0x95a8,0x8589,0xf56e,0xe54f,0xd52c,0xc50d,
        0x34e2,0x24c3,0x14a0,0x0481,0x7466,0x6447,0x5424,0x4405,
        0xa7db,0xb7fa,0x8799,0x97b8,0xe75f,0xf77e,0xc71d,0xd73c,
        0x26d3,0x36f2,0x0691,0x16b0,0x6657,0x7676,0x4615,0x5634,
        0xd94c,0xc96d,0xf90e,0xe92f,0x99c8,0x89e9,0xb98a,0xa9ab,
        0x5844,0x4865,0x7806,0x6827,0x18c0,0x08e1,0x3882,0x28a3,
        0xcb7d,0xdb5c,0xeb3f,0xfb1e,0x8bf9,0x9bd8,0xabbb,0xbb9a,
        0x4a75,0x5a54,0x6a37,0x7a16,0x0af1,0x1ad0,0x2ab3,0x3a92,
        0xfd2e,0xed0f,0xdd6c,0xcd4d,0xbdaa,0xad8b,0x9de8,0x8dc9,
        0x7c26,0x6c07,0x5c64,0x4c45,0x3ca2,0x2c83,0x1ce0,0x0cc1,
        0xef1f,0xff3e,0xcf5d,0xdf7c,0xaf9b,0xbfba,0x8fd9,0x9ff8,
        0x6e17,0x7e36,0x4e55,0x5e74,0x2e93,0x3eb2,0x0ed1,0x1ef0
    ]
end

# Turn a key name into the corrisponding Redis Cluster slot.
def key_to_slot(key)
    # Only hash what is inside {...} if there is such a pattern in the key.
    # Note that the specification requires the content that is between
    # the first { and the first } after the first {. If we found {} without
    # nothing in the middle, the whole key is hashed as usually.
    s = key.index "{"
    if s
        e = key.index "}",s+1
        if e && e != s+1
            key = key[s+1..e-1]
        end
    end
    RedisClusterCRC16.crc16(key) % 16384
end

#################################################################################
# Definition of commands
#################################################################################

COMMANDS={
    "create"  => ["create_cluster_cmd", -2, "host1:port1 ... hostN:portN"],
    "check"   => ["check_cluster_cmd", 2, "host:port"],
    "fix"     => ["fix_cluster_cmd", 2, "host:port"],
    "reshard" => ["reshard_cluster_cmd", 2, "host:port"],
    "add-node" => ["addnode_cluster_cmd", 3, "new_host:new_port existing_host:existing_port"],
    "del-node" => ["delnode_cluster_cmd", 3, "host:port node_id"],
    "set-timeout" => ["set_timeout_cluster_cmd", 3, "host:port milliseconds"],
    "call" =>    ["call_cluster_cmd", -3, "host:port command arg arg .. arg"],
    "import" =>  ["import_cluster_cmd", 2, "host:port"],
    "help"    => ["help_cluster_cmd", 1, "(show this help)"]
}

ALLOWED_OPTIONS={
    "create" => {"replicas" => true},
    "add-node" => {"slave" => false, "master-id" => true},
    "import" => {"from" => :required, "copy" => false, "replace" => false},
    "reshard" => {"from" => true, "to" => true, "slots" => true, "yes" => false, "timeout" => 15000},
    "fix" => {"timeout" => 15000},
}

def show_help
    puts "Usage: redis-trib <command> <options> <arguments ...>\n\n"
    COMMANDS.each{|k,v|
        o = ""
        puts "  #{k.ljust(15)} #{v[2]}"
        if ALLOWED_OPTIONS[k]
            ALLOWED_OPTIONS[k].each{|optname,has_arg|
                puts "                  --#{optname}" + (has_arg ? " <arg>" : "")
            }
        end
    }
    puts "\nFor check, fix, reshard, del-node, set-timeout you can specify the host and port of any working node in the cluster.\n"
end

# Sanity check
if ARGV.length == 0
    show_help
    exit 1
end

rt = RedisTrib.new
cmd_spec = COMMANDS[ARGV[0].downcase]
if !cmd_spec
    puts "Unknown redis-trib subcommand '#{ARGV[0]}'"
    exit 1
end

# Parse options
cmd_options,first_non_option = rt.parse_options(ARGV[0].downcase)
rt.check_arity(cmd_spec[1],ARGV.length-(first_non_option-1))

# Dispatch
rt.send(cmd_spec[0],ARGV[first_non_option..-1],cmd_options)