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Redis methods and application examples for realizing distributed coordination

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May 11, 2023 pm 03:27 PM

redisApplicationsDistributed coordination

Methods and application examples of Redis implementing distributed coordination

In a distributed system, coordination between nodes is a key issue. Traditional solutions usually use a central node to coordinate other nodes, but this will bring problems such as single points of failure and performance bottlenecks. In recent years, Redis, as a high-performance in-memory database, has been increasingly widely used. In Redis, its data structure and command set can be used to implement distributed coordination functions, thereby achieving a highly available and high-performance distributed system. This article will introduce the method and application examples of Redis to achieve distributed coordination.

1. Redis data structure and commands

Redis supports a variety of data structures, including string, list, set, ordered set (zset) and Hash. Each structure corresponds to a set of commands, which can add, delete, query, etc. operations on the structure. In distributed coordination, we commonly use lists and sets.

List

The list (list) is an ordered string array in Redis. We can use lpush, rpush, lpop, rpop and other commands to add and delete elements at both ends of the list. Functions such as task queues and message queues can be implemented through lists.

For example, we can add a task to the list using the following command:

LPUSH tasks "task1"

Then remove the task from the list using the following command:

RPOP tasks

Collection

A set is an unordered, non-repeating collection of strings in Redis. We can use sadd, srem, smembers and other commands to add and delete elements to the collection, or query whether the collection contains an element.

For example, we can use the following command to add a node to the collection:

SADD nodes "node1"

Then use the following command to query all nodes in the collection:

SMEMBERS nodes

The above is the list and collection Commonly used commands, these commands can help us implement distributed coordination functions.

2. Redis’s method of realizing distributed coordination

With the above data structure and commands, we can use Redis to realize the distributed coordination function. The methods of using lists and sets to achieve distributed coordination will be introduced below.

Use lists to implement task queues

In distributed systems, task queues are a common scenario. We can use Redis's list structure to implement a distributed task queue.

We can add a task to the task queue using the following command:

LPUSH tasks "task1"

Then, each node can take out a task from the task queue using the following command:

RPOP tasks

If the queue is empty, the RPOP command returns nil. At this time, the node can wait for a period of time and take out the task again. If the tasks in the task queue have been allocated, new tasks can be added to the queue as needed.

In this way, we can achieve distributed task scheduling, and each node can independently obtain tasks from the task queue and execute them.

Use collections to implement node registration

In a distributed system, coordination is required between nodes. We can use Redis's collection structure to implement node registration and discovery.

When each node starts, add its own node information to the collection through the following command:

SADD nodes "Node-01"

Then other nodes can query all nodes in the collection through the following command:

SMEMBERS nodes

After getting the node list, you can select other nodes for communication, coordination and other operations as needed.

When a node exits abnormally, you can use the following command to delete it from the set:

SREM nodes "Node-01"

In this way, we can achieve coordination between distributed nodes, each Nodes can independently add and delete their own node information to the collection.

3. Application examples of Redis distributed coordination

The above method can be applied in many scenarios. A simple example will be introduced below: implementing distributed task scheduling.

Suppose we need to run some tasks and distribute them to run on multiple machines. We can store the task list in Redis and run a scheduler on each machine. The scheduler can take turns to take tasks from Redis and execute them on this machine.

In order to avoid repeated tasks, we can use collections to store a list of tasks that have been performed. When each task is completed, each node can add the successfully executed task to the collection. The next time the scheduler takes out the task, it can first determine whether the task has been executed.

The pseudo code of the task scheduler is as follows:

while True:
    task = rpop("tasks")
    if task is None:
        sleep(1)
        continue
    if sismember("finished_tasks", task):
        continue
    run_task(task)
    sadd("finished_tasks", task)

In the above code, rpop is used to take out the task from the task queue. If the queue is empty, wait and continue the loop; sismember is used to judge Whether the task has been executed, if so, skip and continue the loop; run_task is used to execute the task, and after successful execution, the task is added to the completed task collection.

Through the above code, we can implement distributed task scheduling on multiple machines, and each node independently obtains tasks from the task queue and executes them.

4. Summary

In a distributed system, coordination between nodes is a key issue. As a high-performance in-memory database, Redis can realize functions such as distributed task scheduling, registration and discovery between nodes through its data structure and commands. This article introduces the list and collection structures of Redis, and uses them to implement examples of distributed task scheduling and node registration respectively. These methods can be applied in many scenarios to help us achieve highly available and high-performance distributed systems.

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