一.准备工作
1.准备一个redis,删除目录下的,dump.rdb文件,并修改他的配置文件:redis.windows.conf
1.修改端口:我设置为 port 7001 2.放开配置: cluster-enabled yes cluster-config-file nodes-7001.conf //名称可自改 cluster-node-timeout 15000
将这个redis复制5份,并修改相应配置,将端口设置为:7001,7002,7003,7004,7005,7006
2.配置Ruby环境、Redis的Ruby驱动redis.gem以及创建Redis集群的工具redis-trib.rb。
(1)下载Redis安装文件:http://download.redis.io/releases/,我们下载zip格式Redis-x64-3.2.1版本。
(2)下载Ruby安装文件:http://dl.bintray.com/oneclick/rubyinstaller/rubyinstaller-2.2.4-x64.exe
(3)下载Ruby环境下Redis的驱动:https://rubygems.org/gems/redis/versions/3.2.2,考虑到兼容性,这里下载的是3.2.2版本。
下载:https://rubygems.org/downloads/redis-3.2.2.gem
(4)下载Redis官方提供的创建Redis集群的ruby脚本文件redis-trib.rb;(我自己下载的,在文章最后,自用)
3.将所有redis文件和redis-trib.rb放在一个redis目录下:
二.启动redis群
1.在redis-trib.rb目录下输入:后面会出现选项,选yes即可;
redis-trib.rb create --replicas 0 127.0.0.1:7001 127.0.0.1:7002 127.0.0.1:7003 127.0.0.1:7004 127.0.0.1:7005 127.0.0.1:7006
三.出现问题
1.缺少redis库:
解决方法:gem install redis (安装redis库)
2.插槽15被占用,解决方法:打开每一个服务器,执行flushall、flushdb、cluster reset指令:到每个redis目录下修改:
四.资源
redis-trib.rb:将他复制到文本上并修改文本名称即可:
#!/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 MigrateDefaultTimeout = 60000 MigrateDefaultPipeline = 10 RebalanceDefaultThreshold = 2 $verbose = false def xputs(s) case s[0..2] when ">" color="29;1" when "[ER" color="31;1" when "[WA" 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"#{@info[:host]}:#{@info[:port]}" end def connect(o={}) return if @r print "Connecting to node #{self}: " if $verbose 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" if $verbose 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"#{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"[ERR] Wrong number of arguments for specified sub command" exit 1 end end def add_node(node) @nodes << node end def reset_nodes @nodes = [] end def cluster_error(msg) @errors << msg xputs msg end # Return the node with the specified ID or Nil. def get_node_by_name(name) @nodes.each{|n| return n if n.info[:name] == name.downcase } return nil end # Like get_node_by_name but the specified name can be just the first # part of the node ID as long as the prefix in unique across the # cluster. def get_node_by_abbreviated_name(name) l = name.length candidates = [] @nodes.each{|n| if n.info[:name][0...l] == name.downcase candidates << n end } return nil if candidates.length != 1 candidates[0] 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(opt={}) xputs "> Performing Cluster Check (using node #{@nodes[0]})" show_nodes if !opt[:quiet] check_config_consistency check_open_slots check_slots_coverage end def show_cluster_info masters = 0 keys = 0 @nodes.each{|n| if n.has_flag"master") puts "#{n} (#{n.info[:name][0...8]}...) -> #{n.r.dbsize} keys | #{n.slots.length} slots | "+ "#{n.info[:replicas].length} slaves." masters += 1 keys += n.r.dbsize end } xputs "[OK] #{keys} keys in #{masters} masters." keys_per_slot = sprintf("%.2f",keys/16384.0) puts "#{keys_per_slot} keys per slot on average." 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 end if 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| next if n.has_flag"slave") 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| target = get_node_with_most_keys_in_slot(nodes,slot) xputs "> Covering slot #{slot} moving keys to #{target}" target.r.cluster('addslots',slot) target.r.cluster('setslot',slot,'stable') nodes.each{|src| next if src == target # Set the source node in 'importing' state (even if we will # actually migrate keys away) in order to avoid receiving # redirections for MIGRATE. src.r.cluster('setslot',slot,'importing',target.info[:name]) move_slot(src,target,slot,:dots=>true,:fix=>true,:cold=>true) src.r.cluster('setslot',slot,'stable') } } end end # Return the owner of the specified slot def get_slot_owners(slot) owners = [] @nodes.each{|n| next if n.has_flag"slave") n.slots.each{|s,_| owners << n if s == slot } } owners end # Return the node, among 'nodes' with the greatest number of keys # in the specified slot. def get_node_with_most_keys_in_slot(nodes,slot) best = nil best_numkeys = 0 @nodes.each{|n| next if n.has_flag"slave") numkeys = n.r.cluster("countkeysinslot",slot) if numkeys > best_numkeys || best == nil best = n best_numkeys = numkeys end } return best 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. owners = get_slot_owners(slot) owner = owners[0] if owners.length == 1 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(",")}" # 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 "> Nobody claims ownership, selecting an owner..." owner = get_node_with_most_keys_in_slot(@nodes,slot) # If we still don't have an owner, we can't fix it. if !owner xputs "[ERR] Can't select a slot owner. Impossible to fix." exit 1 end # Use ADDSLOTS to assign the slot. puts "*** Configuring #{owner} as the slot owner" owner.r.cluster("setslot",slot,"stable") owner.r.cluster("addslots",slot) # Make sure this information will propagate. Not strictly needed # since there is no past owner, so all the other nodes will accept # whatever epoch this node will claim the slot with. owner.r.cluster("bumpepoch") # Remove the owner from the list of migrating/importing # nodes. migrating.delete(owner) importing.delete(owner) end # If there are multiple owners of the slot, we need to fix it # so that a single node is the owner and all the other nodes # are in importing state. Later the fix can be handled by one # of the base cases above. # # Note that this case also covers multiple nodes having the slot # in migrating state, since migrating is a valid state only for # slot owners. if owners.length > 1 owner = get_node_with_most_keys_in_slot(owners,slot) owners.each{|n| next if n == owner n.r.cluster('delslots',slot) n.r.cluster('setslot',slot,'importing',owner.info[:name]) importing.delete(n) # Avoid duplciates importing << n } owner.r.cluster('bumpepoch') end # 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,:dots=>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,:dots=>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"[ERR] Nodes don't agree about configuration!" else xputs "[OK] All nodes agree about slots configuration." end end def is_config_consistent"Waiting for the cluster to join" while !is_config_consistent"." 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"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 slots / reconfiguring the nodes. # :update -- Update nodes.info[:slots] for source/target nodes. # :quiet -- Don't print info messages. def move_slot(source,target,slot,o={}) o = {:pipeline => MigrateDefaultPipeline}.merge(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. if !o[:quiet] print "Moving slot #{slot} from #{source} to #{target}: " STDOUT.flush end 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,o[:pipeline]) break if keys.length == 0 begin source.r.client.call(["migrate",target.info[:host],target.info[:port],"",0,@timeout,:keys,*keys]) rescue => e if o[:fix] && e.to_s =~ /BUSYKEY/ xputs "*** Target key exists. Replacing it for FIX." source.r.client.call(["migrate",target.info[:host],target.info[:port],"",0,@timeout,:replace,:keys,*keys]) else puts "" xputs "[ERR] Calling MIGRATE: #{e}" exit 1 end end print "."*keys.length if o[:dots] STDOUT.flush end puts if !o[:quiet] # Set the new node as the owner of the slot in all the known nodes. if !o[:cold] @nodes.each{|n| next if n.has_flag"slave") n.r.cluster("setslot",slot,"node",target.info[:name]) } end # Update the node logical config if o[:update] then source.info[:slots].delete(slot) target.info[:slots][slot] = true end end # redis-trib subcommands implementations. def check_cluster_cmd(argv,opt) load_cluster_info_from_node(argv[0]) check_cluster end def info_cluster_cmd(argv,opt) load_cluster_info_from_node(argv[0]) show_cluster_info end def rebalance_cluster_cmd(argv,opt) opt = { 'pipeline' => MigrateDefaultPipeline, 'threshold' => RebalanceDefaultThreshold }.merge(opt) # Load nodes info before parsing options, otherwise we can't # handle --weight. load_cluster_info_from_node(argv[0]) # Options parsing threshold = opt['threshold'].to_i autoweights = opt['auto-weights'] weights = {} opt['weight'].each{|w| fields = w.split("=") node = get_node_by_abbreviated_name(fields[0]) if !node || !node.has_flag"master") puts "*** No such master node #{fields[0]}" exit 1 end weights[node.info[:name]] = fields[1].to_f } if opt['weight'] useempty = opt['use-empty-masters'] # Assign a weight to each node, and compute the total cluster weight. total_weight = 0 nodes_involved = 0 @nodes.each{|n| if n.has_flag"master") next if !useempty && n.slots.length == 0 n.info[:w] = weights[n.info[:name]] "*** Please fix your cluster problems before rebalancing" exit 1 end # Calculate the slots balance for each node. It's the number of # slots the node should lose (if positive) or gain (if negative) # in order to be balanced. threshold = opt['threshold'].to_f threshold_reached = false @nodes.each{|n| if n.has_flag"master") next if !n.info[:w] expected = ((ClusterHashSlots.to_f / total_weight) * n.info[:w]).to_i n.info[:balance] = n.slots.length - expected # Compute the percentage of difference between the # expected number of slots and the real one, to see # if it's over the threshold specified by the user. over_threshold = false if threshold > 0 if n.slots.length > 0 err_perc = (100-(100.0*expected/n.slots.length)).abs over_threshold = true if err_perc > threshold elsif expected > 0 over_threshold = true end end threshold_reached = true if over_threshold end } if !threshold_reached xputs "*** No rebalancing needed! All nodes are within the #{threshold}% threshold." return end # Only consider nodes we want to change sn = @nodes.select{|n| n.has_flag"master") && n.info[:w] } # Because of rounding, it is possible that the balance of all nodes # summed does not give 0. Make sure that nodes that have to provide # slots are always matched by nodes receiving slots. total_balance = sn.map{|x| x.info[:balance]}.reduce{|a,b| a+b} while total_balance > 0 sn.each{|n| if n.info[:balance] < 0 && total_balance > 0 n.info[:balance] -= 1 total_balance -= 1 end } end # Sort nodes by their slots balance. sn = sn.sort{|a,b| a.info[:balance] <=> b.info[:balance] } xputs "> Rebalancing across #{nodes_involved} nodes. Total weight = #{total_weight}" if $verbose sn.each{|n| puts "#{n} balance is #{n.info[:balance]} slots" } end # Now we have at the start of the 'sn' array nodes that should get # slots, at the end nodes that must give slots. # We take two indexes, one at the start, and one at the end, # incrementing or decrementing the indexes accordingly til we # find nodes that need to get/provide slots. dst_idx = 0 src_idx = sn.length - 1 while dst_idx < src_idx dst = sn[dst_idx] src = sn[src_idx] numslots = [dst.info[:balance],src.info[:balance]].map{|n| n.abs }.min if numslots > 0 puts "Moving #{numslots} slots from #{src} to #{dst}" # Actaully move the slots. reshard_table = compute_reshard_table([src],numslots) if reshard_table.length != numslots xputs "*** Assertio failed: Reshard table != number of slots" exit 1 end if opt['simulate'] print "#"*reshard_table.length else reshard_table.each{|e| move_slot(e[:source],dst,e[:slot], :quiet=>true, :dots=>false, :update=>true, :pipeline=>opt['pipeline']) print "#" STDOUT.flush } end puts end # Update nodes balance. dst.info[:balance] += numslots src.info[:balance] -= numslots dst_idx += 1 if dst.info[:balance] == 0 src_idx -= 1 if src.info[:balance] == 0 end 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) opt = {'pipeline' => MigrateDefaultPipeline}.merge(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], :dots=>true, :pipeline=>opt['pipeline']) } 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 # --verbose is a global option if option == "verbose" $verbose = true next end 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] != false value = ARGV[idx] idx += 1 else value = true end # If the option is set to [], it's a multiple arguments # option. We just queue every new value into an array. if ALLOWED_OPTIONS[cmd][option] == [] options[option] = [] if !options[option] options[option] << value else options[option] = value end 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[((crc8)^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"], "info" => ["info_cluster_cmd", 2, "host:port"], "fix" => ["fix_cluster_cmd", 2, "host:port"], "reshard" => ["reshard_cluster_cmd", 2, "host:port"], "rebalance" => ["rebalance_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" => true, "pipeline" => true}, "rebalance" => {"weight" => [], "auto-weights" => false, "use-empty-masters" => false, "timeout" => true, "simulate" => false, "pipeline" => true, "threshold" => true}, "fix" => {"timeout" => MigrateDefaultTimeout}, } 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)
总结
稳了!魔兽国服回归的3条重磅消息!官宣时间再确认!
昨天有一位朋友在大神群里分享,自己亚服账号被封号之后居然弹出了国服的封号信息对话框。
这里面让他访问的是一个国服的战网网址,com.cn和后面的zh都非常明白地表明这就是国服战网。
而他在复制这个网址并且进行登录之后,确实是网易的网址,也就是我们熟悉的停服之后国服发布的暴雪游戏产品运营到期开放退款的说明。这是一件比较奇怪的事情,因为以前都没有出现这样的情况,现在突然提示跳转到国服战网的网址,是不是说明了简体中文客户端已经开始进行更新了呢?
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