#!/usr/bin/env python3 import argparse from argparse import RawTextHelpFormatter import json import math import redis import subprocess import time """ To install: pip install -r requirements.txt """ class Node: def __init__(self, host, port): self.id = "" self.host = host self.port = port def update_id(node): node.id = send_command(node, ["dflycluster", "myid"]) print(f"- ID {node.id}") class Master: def __init__(self, host, port): self.node = Node(host, port) self.replicas = [] def start_node(node, threads): f = open(f"/tmp/dfly.cluster.node.{node.port}.log", "w") print(f"- Log file for node {node.port}: {f.name}") subprocess.Popen( [ "../build-opt/dragonfly", f"--port={node.port}", "--cluster_mode=yes", f"--proactor_threads={threads}", "--dbfilename=", f"--logtostderr", "--proactor_affinity_mode=off", ], stderr=f, ) def send_command(node, command, print_errors=True): client = redis.Redis(decode_responses=True, host=node.host, port=node.port) for i in range(0, 5): try: result = client.execute_command(*command) client.close() return result except Exception as e: if print_errors: print(e) time.sleep(0.1 * i) if print_errors: print(f"Unable to run command {command} against {node.host}:{node.port} after 5 attempts!") return Exception() def build_config_from_list(masters): total_slots = 16384 slots_per_node = math.floor(total_slots / len(masters)) def build_node(node): return {"id": node.id, "ip": node.host, "port": node.port} config = [] for i, master in enumerate(masters): c = { "slot_ranges": [{"start": i * slots_per_node, "end": (i + 1) * slots_per_node - 1}], "master": build_node(master.node), "replicas": [build_node(replica) for replica in master.replicas], } config.append(c) config[-1]["slot_ranges"][-1]["end"] += total_slots % len(masters) return config def get_nodes_from_config(config): nodes = [] for shard in config: nodes.append(Node(shard["master"]["ip"], shard["master"]["port"])) for replica in shard["replicas"]: nodes.append(Node(replica["ip"], replica["port"])) for node in nodes: node.update_id() return nodes def push_config(config): def push_to_node(node, config): config_str = json.dumps(config, indent=2) response = send_command(node, ["dflycluster", "config", config_str]) print(f"- Push to {node.port}: {response}") for node in get_nodes_from_config(config): push_to_node(node, config) def create_locally(args): print(f"Setting up a Dragonfly cluster:") print(f"- Master nodes: {args.num_masters}") print(f"- Ports: {args.first_port}...{args.first_port + args.num_masters - 1}") print(f"- Replicas for each master: {args.replicas_per_master}") print() next_port = args.first_port masters = [] for i in range(args.num_masters): master = Master("localhost", next_port) next_port += 1 for j in range(args.replicas_per_master): replica = Node("localhost", next_port) master.replicas.append(replica) next_port += 1 masters.append(master) nodes = [] for master in masters: nodes.append(master.node) for replica in master.replicas: nodes.append(replica) print("Starting nodes...") for node in nodes: start_node(node, args.threads) print() if args.replicas_per_master > 0: print("Configuring replication...") for master in masters: for replica in master.replicas: response = send_command(replica, ["replicaof", master.node.host, master.node.port]) print(f"- {replica.port} replicating {master.node.port}: {response}") print() print(f"Getting IDs...") for n in nodes: n.update_id() print() config = build_config_from_list(masters) print(f"Pushing config:\n{config}\n") push_config(config) print() def config_single_remote(args): print( f"Configuring remote Dragonfly {args.target_host}:{args.target_port} to be a single-server cluster" ) master = Master(args.target_host, args.target_port) master.node.update_id() test = send_command(master.node, ["get", "x"], print_errors=False) if type(test) is not Exception: print("Node either not found or already configured") exit(-1) config = build_config_from_list([master]) print(f"Pushing config:\n{config}\n") push_config(config) print() def build_config_from_existing(args): def list_to_dict(l): return {l[i]: l[i + 1] for i in range(0, len(l), 2)} def build_node(node_list): d = list_to_dict(node_list) return {"id": d["id"], "ip": d["endpoint"], "port": d["port"]} def build_slots(slot_list): slots = [] for i in range(0, len(slot_list), 2): slots.append({"start": slot_list[i], "end": slot_list[i + 1]}) return slots client = redis.Redis(decode_responses=True, host=args.target_host, port=args.target_port) existing = client.execute_command("cluster", "shards") config = [] for shard_list in existing: shard = list_to_dict(shard_list) config.append( { "slot_ranges": build_slots(shard["slots"]), "master": build_node(shard["nodes"][0]), "replicas": [build_node(replica) for replica in shard["nodes"][1::]], } ) return config def find_node(config, host, port): new_owner = None for shard in config: if shard["master"]["ip"] == host and shard["master"]["port"] == port: new_owner = shard break else: print(f"Can't find master with port {port} (hint: use flag --target_port).") exit(-1) return new_owner def attach(args): print(f"Attaching remote Dragonfly {args.attach_host}:{args.attach_port} to cluster") newcomer = Master(args.attach_host, args.attach_port) newcomer.node.update_id() newcomer_config = build_config_from_list([newcomer]) newcomer_config[0]["slot_ranges"] = [] config = build_config_from_existing(args) print(f"Pushing config:\n{config}\n") push_config([*config, newcomer_config[0]]) print() def move(args): config = build_config_from_existing(args) new_owner = find_node(config, args.target_host, args.target_port) def remove_slot(slot, from_range, from_shard): if from_range["start"] == slot: from_range["start"] += 1 if from_range["start"] > from_range["end"]: from_shard["slot_ranges"].remove(from_range) elif from_range["end"] == slot: from_range["end"] -= 1 if from_range["start"] > from_range["end"]: from_shard["slot_ranges"].remove(from_range) else: assert ( slot > from_range["start"] and slot < from_range["end"] ), f'{slot} {from_range["start"]} {from_range["end"]}' from_shard["slot_ranges"].append({"start": slot + 1, "end": from_range["end"]}) from_range["end"] = slot - 1 def add_slot(slot, to_shard): for slot_range in to_shard["slot_ranges"]: if slot == slot_range["start"] - 1: slot_range["start"] -= 1 return if slot == slot_range["end"] + 1: slot_range["end"] += 1 return to_shard["slot_ranges"].append({"start": slot, "end": slot}) def find_slot(slot, config): for shard in config: if shard == new_owner: continue for slot_range in shard["slot_ranges"]: if slot >= slot_range["start"] and slot <= slot_range["end"]: return shard, slot_range return None, None def pack(slot_ranges): new_range = [] while True: changed = False new_range = [] slot_ranges.sort(key=lambda x: x["start"]) for i, slot_range in enumerate(slot_ranges): added = False for j in range(i): prev_slot_range = slot_ranges[j] if prev_slot_range["end"] + 1 == slot_range["start"]: prev_slot_range["end"] = slot_range["end"] changed = True added = True break if not added: new_range.append(slot_range) slot_ranges = new_range if not changed: break return new_range for slot in range(args.slot_start, args.slot_end + 1): shard, slot_range = find_slot(slot, config) if shard == None: continue if shard == new_owner: continue remove_slot(slot, slot_range, shard) add_slot(slot, new_owner) for shard in config: shard["slot_ranges"] = pack(shard["slot_ranges"]) print(f"Pushing new config:\n{json.dumps(config, indent=2)}\n") push_config(config) def migrate(args): config = build_config_from_existing(args) target = find_node(config, args.target_host, args.target_port) target_node = Node(target["master"]["ip"], target["master"]["port"]) target_node.update_id() # Find source node source = None for node in config: slots = node["slot_ranges"] for slot in slots: if slot["start"] <= args.slot_start and slot["end"] >= args.slot_end: source = node break if source == None: print("Unsupported slot range migration (currently only 1-node migration supported)") exit(-1) source_node = Node(source["master"]["ip"], source["master"]["port"]) source_node.update_id() # do migration sync_id = send_command( target_node, [ "DFLYCLUSTER", "START-SLOT-MIGRATION", source_node.host, source_node.port, args.slot_start, args.slot_end, ], ) # wait for migration finish sync_status = [] while True: sync_status = send_command(target_node, ["DFLYCLUSTER", "SLOT-MIGRATION-STATUS"]) assert len(sync_status) == 1 if "STABLE_SYNC" in sync_status[0]: break print("Reached stable sync: ", sync_status) res = send_command(source_node, ["DFLYCLUSTER", "SLOT-MIGRATION-FINALIZE", sync_id]) assert res == "OK" # Push new config to all nodes move(args) def print_config(args): config = build_config_from_existing(args) print(json.dumps(config, indent=2)) def shutdown(args): config = build_config_from_existing(args) for node in get_nodes_from_config(config): send_command(node, ["shutdown"]) def main(): parser = argparse.ArgumentParser( description=""" Dragonfly Manual Cluster Manager This tool helps managing a Dragonfly cluster manually. Cluster can either be local or remote: - Starting Dragonfly instances must be done locally, binary is assumed to be under ../build-opt - Remote Dragonflies must already be started, and initialized with `--cluster_mode=yes` Example usage: Create a 3 node cluster locally: ./cluster_mgr.py --action=create_locally --num_masters=3 This will create 3 Dragonfly processes with ports 7001-7003. Ports can be overridden with `--first_port`. Create a 6 node cluster locally, 3 of them masters with 1 replica each: ./cluster_mgr.py --action=create_locally --num_masters=3 --replicas_per_master=1 Connect to existing cluster and print current config: ./cluster_mgr.py --action=print_config This will connect to localhost:6379 by default. Override with `--target_host` and `--target_port` Configure an existing Dragonfly server to be a standalone cluster (owning all slots): ./cluster_mgr.py --action=config_single_remote This connects to an *existing* Dragonfly server, and pushes a config telling it to own all slots. This will connect to localhost:6379 by default. Override with `--target_host` and `--target_port` Attach an existing Dragonfly server to an existing cluster (owning no slots): ./cluster_mgr.py --action=attach --attach_host=HOST --attach_port=PORT This will connect to existing cluster present at localhost:6379 by default. Override with `--target_host` and `--target_port` To set up a new cluster - start the servers and then use ./cluster_mgr.py --action=config_single_remote ... ./cluster_mgr.py --action=attach ... And repeat `--action=attach` for all servers. Afterwards, distribute the slots between the servers as desired with `--action=move` or `--action=migrate` Connect to cluster and move slots 10-20 to target: ./cluster_mgr.py --action=move --slot_start=10 --slot_end=20 --target_host=X --target_port=X Migrate slots 10-20 to target: ./cluster_mgr.py --action=migrate --slot_start=10 --slot_end=20 --target_host=X --target_port=X Connect to cluster and shutdown all nodes: ./cluster_mgr.py --action=shutdown WARNING: Be careful! This will close all Dragonfly servers connected to the cluster. """, formatter_class=RawTextHelpFormatter, ) parser.add_argument( "--action", default="", help="Which action to take? See `--help`", ) parser.add_argument( "--num_masters", type=int, default=3, help="Number of master nodes in cluster" ) parser.add_argument( "--replicas_per_master", type=int, default=0, help="How many replicas for each master" ) parser.add_argument("--first_port", type=int, default=7001, help="First master's port") parser.add_argument("--threads", type=int, default=2, help="Threads per node") parser.add_argument( "--slot_start", type=int, default=0, help="First slot to move / migrate (inclusive)" ) parser.add_argument( "--slot_end", type=int, default=100, help="Last slot to move / migrate (inclusive)" ) parser.add_argument("--target_host", default="localhost", help="Master host/ip") parser.add_argument("--target_port", type=int, default=6379, help="Master port") parser.add_argument( "--attach_host", default="localhost", help="New cluster node master host/ip" ) parser.add_argument( "--attach_port", type=int, default=6379, help="New cluster node master port" ) args = parser.parse_args() actions = dict( [ (f.__name__, f) for f in [ create_locally, shutdown, config_single_remote, attach, move, print_config, migrate, ] ] ) action = actions.get(args.action.lower()) if action: action(args) else: print(f'Error - unknown action "{args.action}". See --help') exit(-1) if __name__ == "__main__": main()