seaweedfs implemented in pure Rust.
By default, the master node runs on port 9333, and the volume nodes run on port 8080. Let's start one master node, and one volume node on port 8080. Ideally, they should be started from different machines. We'll use localhost as an example.
Helyim uses HTTP REST operations to read, write, and delete. The responses are in JSON or JSONP format.
cargo run --bin helyim mastercargo run --bin helyim volume --port 8080 --folders ./vdata:70 --folders ./v1data:10To upload a file: first, send a HTTP POST, PUT, or GET request to /dir/assign to get an fid and a volume server URL:
curl https://localhost:9333/dir/assign
{"fid":"6,16b7578a5","url":"127.0.0.1:8080","public_url":"127.0.0.1:8080","count":1,"error":""}Second, to store the file content, send a HTTP multi-part POST request to url + '/' + fid from the response:
curl -F file=@./sun.jpg https://127.0.0.1:8080/6,16b7578a5
{"name":"sun.jpg","size":1675569,"error":""}To update, send another POST request with updated file content.
For deletion, send an HTTP DELETE request to the same url + '/' + fid URL:
curl -X DELETE https://127.0.0.1:8080/6,16b7578a5In order to make concise for parameters, when initiating a Raft node, only allow specifying up to 2 addresses simultaneously.
node-id represents the current node id and peer denotes the cluster member.
You can view the cluster status by accessing https://localhost:9333/cluster/status.
# start master1, treat it as leader
cargo run --release --bin helyim -- master --port 9333 \
--node-id 1
# start master2, treat it as learner
cargo run --release --bin helyim -- master --port 9335 \
--node-id 2 \
# peer could be leader
--peer 127.0.0.1:9333
# start master3, treat it as learner
cargo run --release --bin helyim -- master --port 9337 \
--node-id 3 \
# peer could be learner
--peer 127.0.0.1:9335My laptop results on Lenovo IdeaPad Pro 16 (2023) with SSD, CPU: 14 Intel Core i9 5.4GHz.
It seems to be slower than seaweedfs, especially in terms of reading.
➜ ./weed benchmark -server=localhost:9333
This is SeaweedFS version 0.76 linux amd64
------------ Writing Benchmark ----------
Completed 15199 of 1048576 requests, 1.4% 15198.1/s 15.3MB/s
Completed 31887 of 1048576 requests, 3.0% 16687.9/s 16.8MB/s
Completed 48439 of 1048576 requests, 4.6% 16551.6/s 16.7MB/s
...
Completed 994044 of 1048576 requests, 94.8% 16645.2/s 16.8MB/s
Completed 1010800 of 1048576 requests, 96.4% 16755.8/s 16.9MB/s
Completed 1027412 of 1048576 requests, 98.0% 16612.2/s 16.7MB/s
Completed 1044319 of 1048576 requests, 99.6% 16907.0/s 17.0MB/s
Concurrency Level: 16
Time taken for tests: 63.249 seconds
Complete requests: 1048576
Failed requests: 0
Total transferred: 1106759553 bytes
Requests per second: 16578.50 [#/sec]
Transfer rate: 17088.29 [Kbytes/sec]
Connection Times (ms)
min avg max std
Total: 0.1 0.9 29.8 0.4
Percentage of the requests served within a certain time (ms)
50% 0.9 ms
66% 1.0 ms
75% 1.1 ms
90% 1.3 ms
95% 1.5 ms
98% 1.7 ms
99% 1.8 ms
100% 29.8 ms
------------ Randomly Reading Benchmark ----------
Completed 89963 of 1048576 requests, 8.6% 89957.6/s 90.5MB/s
Completed 187560 of 1048576 requests, 17.9% 97597.1/s 98.2MB/s
Completed 283486 of 1048576 requests, 27.0% 95925.8/s 96.6MB/s
Completed 382035 of 1048576 requests, 36.4% 98549.4/s 99.2MB/s
Completed 480649 of 1048576 requests, 45.8% 98613.9/s 99.3MB/s
Completed 583585 of 1048576 requests, 55.7% 102933.7/s 103.6MB/s
Completed 683954 of 1048576 requests, 65.2% 100370.9/s 101.0MB/s
Completed 782522 of 1048576 requests, 74.6% 98567.9/s 99.2MB/s
Completed 883504 of 1048576 requests, 84.3% 100982.7/s 101.7MB/s
Completed 987320 of 1048576 requests, 94.2% 103814.3/s 104.5MB/s
Concurrency Level: 16
Time taken for tests: 10.600 seconds
Complete requests: 1048576
Failed requests: 0
Total transferred: 1106777459 bytes
Requests per second: 98925.73 [#/sec]
Transfer rate: 101969.36 [Kbytes/sec]
Connection Times (ms)
min avg max std
Total: 0.0 0.1 2.3 0.1
Percentage of the requests served within a certain time (ms)
50% 0.1 ms
95% 0.2 ms
98% 0.4 ms
100% 2.3 ms- seaweedfs - SeaweedFS is a fast distributed storage system for blobs, objects, files, and data lake, for billions of files! Blob store has O(1) disk seek, cloud tiering. Filer supports Cloud Drive, cross-DC active-active replication, Kubernetes, POSIX FUSE mount, S3 API, S3 Gateway, Hadoop, WebDAV, encryption, Erasure Coding.
- zergling - seaweedFS re-implemented in Rust.