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How to solve the problem of using Pipelining to speed up queries in Redis

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Release: 2023-05-26 11:47:41
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Request/Response protocols and RTT

Redis is a client-server mode TCP service, also known as the implementation of the Request/Response protocol.

How to solve the problem of using Pipelining to speed up queries in Redis

This means that usually the completion of a request follows the following two steps:

  • Client sends an operation command to the Server, Read the Server's response value from the TCP socket. Generally speaking, this is a blocking method.

  • Server executes the operation command and then returns the response value to the Client

For example

Client: INCR X
Server: 1
Client: INCR X
Server: 2
Client: INCR X
Server: 3
Client: INCR X
Server: 4
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Clients and Servers are connected through the network. Network connections can be very fast (such as a local loopback network) or very slow (such as a network that spans multiple hosts). No matter what the network is like, it takes a certain amount of time for a data packet to go from the Client to the Server, and then the corresponding value is returned from the Server to the Client.

This time is called RTT (Round Trip Time). When a Client needs to perform multiple consecutive requests (such as adding many elements to a list, or clearing many key-value pairs in Redis), how does RTT affect performance? This is also very convenient to calculate. For example, if the RTT time is 250ms (assuming the Internet connection is very slow), even if the server can handle 100k requests per second, it can only accept up to 4 requests per second.

If it is a loopback network, the RTT will be particularly short (for example, the author's 127.0.0.1, the RTT response time is 44ms), but it will also consume a lot of money when performing multiple consecutive write operations. .

Actually, we have other ways to reduce consumption in this scenario, are you happy? Surprise?

Redis Pipelining

There is a feature in a Request/Response style service: even if the Client does not receive the previous response value, it can continue to send new requests. . This feature means that we do not need to wait for the server's response. We can send many operation commands to the server first, and then read all the server's response values ​​​​at once.

This method is called Pipelining technology, which has been widely used in recent decades. For example, the implementation of multiple POP3 protocols supports this feature, which greatly improves the speed of downloading new emails from the server.

Redis has supported this technology very early, so no matter what version you are running, you can use the pipelining technology. For example, here is one using the netcat tool:

$ (printf "PING\r\nPING\r\nPING\r\n"; sleep 1) | nc localhost 6379
+PONG
+PONG
+PONG
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Now we don’t need to pay RTT for each request, but send three operation commands at once. In order to facilitate intuitive understanding, let’s take the previous instructions and use the pipelining technology. The implementation sequence is as follows:

Client: INCR X
Client: INCR X
Client: INCR X
Client: INCR X
Server: 1
Server: 2
Server: 3
Server: 4
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Highlight (knock on the blackboard): When the client uses pipeliningWhen sending an operation command, the server will force the use of memory to arrange the response results. Therefore, when using pipelining to send a large number of operation commands, it is best to determine a reasonable number of commands and send them to the server in batches. For example, send 10k operation commands and read the response results. Send another 10k operation commands, and so on... Although the time consumption is almost the same, the additional memory consumption will be the maximum value required for the arrangement response result of these 10k operation commands. (To prevent memory exhaustion, choose a reasonable value)

It’s not just a matter of RTT

Pipeliningis not the only way to reduce consumption caused by RTT , but it does help you greatly increase the number of commands executed per second. The truth of the matter is: from the perspective of accessing the corresponding data structure and generating the reply result, not using pipelining is indeed very cheap; but from the perspective of socket I/O, it is just the opposite. . Because this involves read() and write() calls, you need to switch from user mode to kernel mode. This kind of context switching will be particularly time-consuming.

Once pipelining technology is used, many operation commands will perform read operations from the same read() call, and a large number of reply results will be distributed to The write operation is performed in the same write() call. Based on this, as the length of the pipeline increases, the number of queries executed per second initially increases almost linearly until it is 10 times the baseline without using pipelining technology, as shown below:

How to solve the problem of using Pipelining to speed up queries in Redis

Some real world code example

is not translated, basically it means using pipelining to improve the performance by 5 times.

Pipelining VS Scripting

Redis Scripting(2.6+版本可用),通过使用在Server端完成大量工作的脚本Scripting,可以更加高效的解决大量pipelining用例。使用脚本Scripting的最大好处就是在读和写的时候消耗更少的性能,使得像读、写、计算这样的操作更加快速。(当client需要写操作之前获取读操作的响应结果时,pepelining就显得相形见拙。) 有时候,应用可能需要在使用pipelining时,发送 EVAL 或者 EVALSHA 命令,这是可行的,并且Redis明确支持这么这种SCRIPT LOAD命令。(它保证可可以调用 EVALSHA 而不会有失败的风险)。

Appendix: Why are busy loops slow even on the loopback interface?

读完全文,你可能还会感到疑问:为什么如下的Redis测试基准 benchmark 会执行这么慢,甚至在Client和Server在一个物理机上也是如此:

FOR-ONE-SECOND:
    Redis.SET("foo","bar")
END
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毕竟Redis进程和测试基准benchmark在相同的机器上运行,并且这是没有任何实际的延迟和真实的网络参与,不就是消息通过内存从一个地方拷贝到另一个地方么? 原因是进程在操作系统中并不是一直运行。真实的情景是系统内核调度,调度到进程运行,它才会运行。比如测试基准benchmark被允许运行,从Redis Server中读取响应内容(与最后一次执行的命令相关),并且写了一个新的命令。这时命令将在回环网络的套接字中,但是为了被Redis Server读取,系统内核需要调度Redis Server进程(当前正在系统中挂起),周而复始。所以由于系统内核调度的机制,就算是在回环网络中,仍然会涉及到网络延迟。 简言之,在网络服务器中衡量性能时,使用回环网络测试并不是一个明智的方式。应该避免使用此种方式来测试基准。

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