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REST Server Performance

Goals

Compare a minimal REST service performance in Node.js, Go and Java. The focus is only on HTTP & JSON as these are most common for REST APIs.

The goal is to compare performance of the standard libraries that come out of the box, as this is what most projects use in practice. No external libraries are used, just the builtin APIs (except for Java).

Setup

All the servers do the same - parse the JSON body and return it back in the response.

Install

  • Node.js
  • Go
  • Java
  • Docker
  • wrk

The POST request is defined in post.lua. The content is ~4KB JSON.

$ node -v
v10.1.0

$ go version
go version go1.10.1 linux/amd64

$ java -version
java version "11.0.2" 2019-01-15 LTS
Java(TM) SE Runtime Environment 18.9 (build 11.0.2+9-LTS)
Java HotSpot(TM) 64-Bit Server VM 18.9 (build 11.0.2+9-LTS, mixed mode)

$ cat /etc/issue
Ubuntu 16.04.4 LTS \n \l

CPU: Intel® Core™ i7-7500U CPU @ 2.70GHz × 4

RAM: 16GB

Single thread

Node.js

Start the server

$ node server.js
Listening on port 3000

Run the test in a separate console

$ wrk -d 20s -s post.lua http://localhost:3000
Running 20s test @ http://localhost:3000
  2 threads and 10 connections
  Thread Stats   Avg      Stdev     Max   +/- Stdev
    Latency   793.29us  221.36us  11.96ms   92.88%
    Req/Sec     6.36k   513.96    12.33k    83.04%
  253629 requests in 20.10s, 564.55MB read
Requests/sec:  12618.86
Transfer/sec:     28.09MB

During the test the node process runs at ~100% CPU and ~70MB memory.

Go

Start the server

$ GOMAXPROCS=1 go run server.go
2018/05/19 23:45:39 Listening on port 3000

To get comparable results we start the go server with GOMAXPROCS=1 as Node.js executes JavaScript in a single thread.

Note this limits the number of operating system threads that can execute user-level Go code simultaneously. There is no limit to the number of threads that can be blocked in system calls on behalf of Go code; those do not count against the GOMAXPROCS limit. Source https://golang.org/pkg/runtime/.

Run the test in a separate console

$ wrk -d 20s -s post.lua http://localhost:3000
Running 20s test @ http://localhost:3000
  2 threads and 10 connections
  Thread Stats   Avg      Stdev     Max   +/- Stdev
    Latency     1.40ms  735.96us   7.03ms   59.42%
    Req/Sec     3.59k   249.95     7.36k    93.77%
  143198 requests in 20.10s, 318.06MB read
Requests/sec:   7124.41
Transfer/sec:     15.82MB

During the test the server process runs at ~100% CPU and ~10MB memory.

The Go server parses the JSON request into fixed structures. It is interesting to test what happens when we use unstructured JSON parsing with interface{}. So, open server.go and change this line

	var body Body

to

	var body interface{}

Run again the test

$ wrk -d 20s -s post.lua http://localhost:3000
Running 20s test @ http://localhost:3000
  2 threads and 10 connections
  Thread Stats   Avg      Stdev     Max   +/- Stdev
    Latency     2.03ms    1.08ms  22.77ms   63.43%
    Req/Sec     2.48k   128.59     2.73k    74.00%
  98894 requests in 20.01s, 219.65MB read
Requests/sec:   4943.11
Transfer/sec:     10.98MB

Results

Surprisingly Node.js is faster at HTTP and JSON handling. Probably the reason is that most of the work is done in the native (C++) parts of node and V8.

chart

This is a fair comparison as both use almost the same amount of CPU (~100% ±3pp).

We see also that in Go structured JSON is faster. You can find more details about this here.

Single core, unlimited threads

Many people commented that the limiting GOMAXPROCS is unfair to Go, so here we run the test without such limits but limit the actual resources available to the process.

Here we run each server in a docker container limited to one CPU. This way we ensure both servers have equal resources.

Node

Build server image

docker build -t rest-node -f node.docker .

Start container and limit it to 1 CPU

$ docker run -it -p 3000:3000 --cpus=1 --rm rest-node
Node version: v10.1.0
CPU: 4 x Intel(R) Core(TM) i7-7500U CPU @ 2.70GHz
Listening on port 3000

Run the load test

$ wrk -d 20s -s post.lua http://localhost:3000
Running 20s test @ http://localhost:3000
  2 threads and 10 connections
  Thread Stats   Avg      Stdev     Max   +/- Stdev
    Latency     1.31ms    1.96ms  59.60ms   97.28%
    Req/Sec     4.56k   785.46     5.30k    88.25%
  181603 requests in 20.00s, 404.23MB read
Requests/sec:   9078.68
Transfer/sec:     20.21MB

Go

Here we test only the faster structured JSON handling so restore server.go to its original version.

Build server image

docker build -t rest-go -f go.docker .

Start container and limit it to 1 CPU

$ docker run -it -p 3000:3000 --cpus=1 --rm rest-go
Version: go1.10.2
NumCPU: 4
GOMAXPROCS: 4
Listening on port 3000

Run the load test

$ wrk -d 20s -s post.lua http://localhost:3000
Running 20s test @ http://localhost:3000
  2 threads and 10 connections
  Thread Stats   Avg      Stdev     Max   +/- Stdev
    Latency    25.13ms   25.78ms 179.49ms   77.94%
    Req/Sec   291.19     79.29     1.28k    95.50%
  11614 requests in 20.03s, 25.80MB read
Requests/sec:    579.77
Transfer/sec:      1.29MB

It seems running 4 threads on a single core is not a good idea. Let's limit the threads to 1.

$ docker run -it -p 3000:3000 --cpus=1 -e "GOMAXPROCS=1" --rm rest-go
Version: go1.10.2
NumCPU: 4
GOMAXPROCS: 1
Listening on port 3000

Run again the load test

$ wrk -d 20s -s post.lua http://localhost:3000
Running 20s test @ http://localhost:3000
  2 threads and 10 connections
  Thread Stats   Avg      Stdev     Max   +/- Stdev
    Latency     1.69ms    1.70ms  58.44ms   98.22%
    Req/Sec     3.12k   231.49     3.48k    86.57%
  124807 requests in 20.10s, 277.21MB read
Requests/sec:   6209.90
Transfer/sec:     13.79MB

Results

Node.js Go (unlimited) Go (GOMAXPROCS=1)
Req/s 9078 579 6209

All CPU cores, no limits

Here we use all the CPUs on the machine - no limits.

Node.js

Start node cluster with one master process + one worker process per CPU

$ CLUSTER=1 node server.js
Node version: v10.1.0
CPU: 4 x Intel(R) Core(TM) i7-7500U CPU @ 2.70GHz
Master 23652 is running
Listening on port 3000
Worker 23658 started
Worker 23663 started
Worker 23664 started
Worker 23669 started

Run the load test

$ wrk -d 20s -s post.lua http://localhost:3000
Running 20s test @ http://localhost:3000
  2 threads and 10 connections
  Thread Stats   Avg      Stdev     Max   +/- Stdev
    Latency   546.62us    0.97ms  44.91ms   97.55%
    Req/Sec    11.04k     1.62k   15.20k    84.50%
  439361 requests in 20.03s, 0.96GB read
Requests/sec:  21938.23
Transfer/sec:     48.83MB

Here 4 node processes run at ~90% CPU with ~55MB RAM each, i.e. total of ~360% CPU and ~220MB RAM.

Go

$ go run server.go
Version: go1.10.1
NumCPU: 4
GOMAXPROCS: 4
Listening on port 3000
$ wrk -d 20s -s post.lua http://localhost:3000
Running 20s test @ http://localhost:3000
  2 threads and 10 connections
  Thread Stats   Avg      Stdev     Max   +/- Stdev
    Latency     1.09ms    1.58ms  26.92ms   93.73%
    Req/Sec     6.42k   495.44    12.33k    84.04%
  256084 requests in 20.10s, 568.79MB read
Requests/sec:  12740.96
Transfer/sec:     28.30MB

Here the server process runs at ~360% CPU with ~11MB RAM.

Java (Spring Boot)

Ok, here we do use an additional library - Spring Boot, which seems to be very popular recently.

Here we add Java just to get a rough idea how it compares against Node and Go.

$ cd java
$ gradle build
$ java -jar build/libs/gs-rest-service-0.1.0.jar
$ wrk -d 20s -s post.lua http://localhost:8080
Running 20s test @ http://localhost:8080
  2 threads and 10 connections
  Thread Stats   Avg      Stdev     Max   +/- Stdev
    Latency     2.14ms    4.56ms  70.13ms   91.95%
    Req/Sec     5.52k     1.94k   11.26k    70.00%
  219991 requests in 20.01s, 501.05MB read
Requests/sec:  10993.65
Transfer/sec:     25.04MB

Here the java process runs at ~360% CPU with ~450MB memory.

Results

Node.js Go Java
Req/s 21938 12740 10993

chart

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