This repository has the Shadowsocks service used by Outline servers. It was inspired by go-shadowsocks2, and adds a number of improvements to meet the needs of the Outline users.
The Outline Shadowsocks service allows for:
- Multiple users on a single port.
- Does so by trying all the different credentials until one succeeds.
- Multiple ports
- Whitebox monitoring of the service using prometheus.io
- Includes traffic measurements and other health indicators.
- Live updates via config change + SIGHUP
- Replay defense (add
--replay_history 10000). See PROBES for details.
Fetch dependencies for this demo:
GO111MODULE=off go get github.com/shadowsocks/go-shadowsocks2 github.com/prometheus/prometheus/cmd/...
If that doesn't work, download the prometheus or go-shadowsocks2 binaries directly.
On Terminal 1, from the repository directory, build and start the SS server:
go run . -config config_example.yml -metrics localhost:9091 --replay_history=10000
In production, you may want to specify -ip_country_db to get per-country metrics. See how the Outline Server calls outline-ss-server.
On Terminal 2, start prometheus scraper for metrics collection:
$(go env GOPATH)/bin/prometheus --config.file=prometheus_example.yml
On Terminal 3, start the SS client:
$(go env GOPATH)/bin/go-shadowsocks2 -c ss://chacha20-ietf-poly1305:Secret0@:9000 -verbose -socks localhost:1080
On Terminal 4, fetch a page using the SS client:
curl --proxy socks5h://localhost:1080 example.com
Stop and restart the client on Terminal 3 with "Secret1" as the password and try to fetch the page again on Terminal 4.
Open http://localhost:9091/metrics and see the exported Prometheus variables.
Open http://localhost:9090/ and see the Prometheus server dashboard.
Start the iperf3 server (runs on port 5201 by default):
iperf3 -s
Start the SS server (listening on port 9000):
go run . -config config_example.yml
Start the SS tunnel to redirect port 8000 -> localhost:5201 via the proxy on 9000:
$(go env GOPATH)/bin/go-shadowsocks2 -c ss://chacha20-ietf-poly1305:Secret0@:9000 -tcptun ":8000=localhost:5201" -udptun ":8000=localhost:5201" -verbose
Test TCP upload (client -> server):
iperf3 -c localhost -p 8000
Test TCP download (server -> client):
iperf3 -c localhost -p 8000 --reverse
Test UDP upload:
iperf3 -c localhost -p 8000 --udp -b 0
Test UDP download:
iperf3 -c localhost -p 8000 --udp -b 0 --reverse
Run the commands above, but start the SS server with
$(go env GOPATH)/bin/go-shadowsocks2 -s ss://chacha20-ietf-poly1305:Secret0@:9000 -verbose
Start the SS server (listening on port 10001):
ss-server -s localhost -p 10001 -m chacha20-ietf-poly1305 -k Secret1 -u -v
Start the SS tunnel to redirect port 10002 -> localhost:5201 via the proxy on 10001:
ss-tunnel -s localhost -p 10001 -m chacha20-ietf-poly1305 -k Secret1 -l 10002 -L localhost:5201 -u -v
Run the iperf3 client tests listed above on port 10002.
You can mix and match the libev and go servers and clients.
To run the tests and benchmarks, call:
make test
You can benchmark the cipher finding code with
go test -cpuprofile cpu.prof -memprofile mem.prof -bench . -benchmem -run=^$ github.com/Jigsaw-Code/outline-ss-server/shadowsocks
You can inspect the CPU or memory profiles with go tool pprof cpu.prof or go tool pprof mem.prof, and then enter web on the prompt.
We use GoReleaser to build and upload binaries to our GitHub releases.
Summary:
-
Test the build locally:
make release-local -
Export an environment variable named
GITHUB_TOKENwith a temporary repo-scoped GitHub token (create one here):export GITHUB_TOKEN=yournewtoken -
Create a new tag and push it to GitHub e.g.:
git tag v1.0.0 git push origin v1.0.0
-
Build and upload:
make release
-
Go to https://github.com/Jigsaw-Code/outline-ss-server/releases, review and publish the release.
-
Delete the Github token you created for the release on the Personal Access Tokens page.
Full instructions in GoReleaser's Quick Start (jump to the section starting "You’ll need to export a GITHUB_TOKEN environment variable").