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How to implement snap-up function in golang

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Release: 2023-04-04 17:36:31
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Golang, as an efficient, concise and reliable programming language, is attracting more and more attention from developers, especially in the context of high concurrency and large-scale access. At the same time, with the rise of e-commerce and various online activities, panic buying has become a new folk custom. So, let’s discuss how golang carries out rush buying.

1. Principle of rush buying

The principle of rush buying can be simply said to be high concurrency competing for a small amount of resources, and this process needs to be completed in a very short time. In this process, there are two main bottlenecks, one is network delay, and the other is server response time. In order to deal with these two bottlenecks, it is necessary to use some technical means such as asynchronous coroutines, caches, message queues, etc. These technical means are crucial to improving the running efficiency of the program.

2. How to carry out rush buying in golang

1. Use asynchronous coroutines

During the rush buying process, different users will access different resources. Using asynchronous coroutines can fully Utilize the computer's multi-core resources to improve program efficiency and access speed. Using golang's built-in coroutine technology, synchronously blocked IO operations can be converted into asynchronous processing to improve program efficiency.

2. Use caching

Caching technology can effectively reduce the burden on the server and improve access speed. In an actual rush-buying environment, each user accesses the same resource. In order to reduce the calculation amount and resource consumption on the server side, caching technology can be used to reduce the number of requests for each user. Commonly used caching technologies in golang include redis cache and memory cache, which can be selected according to the actual situation.

3. Use the message queue

The message queue can balance the access volume under high concurrency and reduce the pressure on the server. In rush buying scenarios, you need to use message queues to write requests into the queue, and then have worker threads process the requests asynchronously to avoid a large number of requests falling on a certain service, causing the service to crash or memory overflow.

4. Use distributed locks

Distributed locks ensure the uniqueness of resources under high concurrency and avoid the problem of multiple users rushing to purchase the same resource at the same time. Commonly used distributed locks in golang include etcd distributed locks, redis distributed locks, etc.

The above are the main technical means for golang to snap up. By rationally using these technologies, program efficiency can be improved and user experience guaranteed.

3. Example analysis

In order to better understand how golang carries out rush buying, an example analysis is given below.

Suppose there is a hot-selling product, each user can only buy one at a time, the inventory is 1,000 pieces, and 10,000 users participate in a rush sale. How to conduct a rush sale?

1. Using asynchronous coroutine

You can use golang's built-in goroutine technology to concurrently process each user's snap-up request to improve snap-up efficiency.

2. Use cache

Write the inventory of the product into the cache. When each user requests, the inventory is first read from the cache. If the inventory in the cache is 0, Then return false directly, otherwise the inventory will be deducted, and the deducted inventory will be written back to the cache again.

3. Use message queue

Under high concurrency, if you use synchronous blocking mode to process requests, it may cause server downtime or memory overflow. To avoid this situation, you can use a message queue to put the request into the queue asynchronously and process it by the worker thread.

4. Use distributed locks

In rush buying scenarios, distributed locks need to be used to ensure the uniqueness of resources. Distributed locks based on etcd or redis can be used to prevent multiple users from purchasing the same resource at the same time.

The above is a simple example analysis. Through the reasonable use of golang technical means, rush buying can be effectively carried out. Of course, in practical applications, more detailed issues need to be considered, such as anti-swipe strategies, payment processes, order management, etc.

4. Summary

For high-concurrency scenarios, golang has very outstanding performance in terms of efficiency, reliability, stability, etc. If golang's technical means are used appropriately, efficient snap buying can be carried out and the user experience can be greatly improved. Of course, in practical applications, some specific details need to be paid attention to, such as the performance issues of distributed locks and the reliability of message queues. Through continuous optimization, golang will be able to play a more important role in high-concurrency scenarios.

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