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pingap

Pingap Logo

What is Pingap

A reverse proxy like nginx, built on pingora, simple and efficient.

Sentry and opentelemetry are optional, they are supported in the full-featured version.

中文说明

Examples

flowchart LR
  internet("Internet") -- request --> pingap["Pingap"]
  pingap -- proxy:pingap.io/api/* --> apiUpstream["10.1.1.1,10.1.1.2"]
  pingap -- proxy:cdn.pingap.io --> cdnUpstream["10.1.2.1,10.1.2.2"]
  pingap -- proxy:pingap.io --> upstream["10.1.3.1,10.1.3.2"]
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Feature

  • The service supports configuring multiple Locations, filtering locations by host and path, and matching and selecting them one by one according to the weight
  • Support regular form configuration to rewrite Path
  • Support transparent proxy
  • Support HTTP 1/2, including h2c
  • Support static, dns and docker label service discovery
  • Support grpc-web reverse proxy
  • Configuration based on TOML format, the configuration method is very simple, and can be saved to files or etcd
  • Supports more than 10 Prometheus indicators, pull and push mode
  • Opentelemetry supports w3c context trace and jaeger trace
  • Frequently updated Upstream and Location related configuration adjustments take effect in 30 seconds, and after other application configurations are updated, the program is restarted gracefully without interruption
  • Templated configuration of access logs, which supports more than 30 related attribute configurations, and various parameters and indicators can be specified as needed
  • Web UI for config, simple and easy to use
  • Support let's encrypt, just set the domain of http server
  • TLS certificates of different domain names can be served in the same service port, and the matching certificate is automatically selected according to servername
  • Supports push of various events: lets_encrypt, backend_status, diff_config, restart, etc.
  • Many http plugins, such as cache service components, compression components with multiple compression algorithms, authentication components, limiting components, etc.
  • Provides statistical data at different stages, such as upstream_connect_time, upstream_processing_time, compression_time, cache_lookup_time and cache_lock_time, etc.

Start

Loads all configurations from /opt/pingap/conf or file /opt/pingap/pingap.toml and run in the background. Log appends to /opt/pingap/pingap.log.

RUST_LOG=INFO pingap -c=/opt/pingap/conf -d --log=/opt/pingap/pingap.log

Graceful restart

Validate the configurations, send quit signal to pingap, then start a new process to handle all requests.

RUST_LOG=INFO pingap -c=/opt/pingap/conf -t \
  && pkill -SIGQUIT pingap \
  && RUST_LOG=INFO pingap -c=/opt/pingap/conf -d -u --log=/opt/pingap/pingap.log

Auto restart

Watch the configurations, if one of them changes, graceful restart pingap. autoreload means if only the upstream and location configurations are updated, they will take effect about 10s without restarting.

RUST_LOG=INFO pingap -c=/opt/pingap/conf \
  -a -d --autoreload --log=/opt/pingap/pingap.log

Docker

cGluZ2FwOjEyMzEyMw== is base64("pingap:123123")

docker run -it -d --restart=always \
  -v $PWD/pingap:/opt/pingap \
  -p 3018:3018 \
  vicanso/pingap -c /opt/pingap/conf \
  --autoreload \
  [email protected]:3018

Dev

make dev

If you need a web admin, you should install nodejs and build web asssets.

# generate admin web asset
cd web
yarn install
cd ..
make build-web

Config

[upstreams.charts]
addrs = ["127.0.0.1:5000"]

[locations.lo]
upstream = "charts"
path = "/"

[servers.test]
addr = "0.0.0.0:6188"
locations = ["lo"]

All toml configurations are as follows pingap.toml.

Proxy step

graph TD;
  server["HTTP Server"];
  locationA["Location A"];
  locationB["Location B"];
  locationPluginListA["Proxy Plugin List A"];
  locationPluginListB["Proxy Plugin List B"];
  upstreamA1["Upstream A1"];
  upstreamA2["Upstream A2"];
  upstreamB1["Upstream B1"];
  upstreamB2["Upstream B2"];
  locationResponsePluginListA["Response Plugin List A"];
  locationResponsePluginListB["Response Plugin List B"];

  start("New Request") --> server

  server -- "host:HostA, Path:/api/*" --> locationA

  server -- "Path:/rest/*"--> locationB

  locationA -- "Exec Proxy Plugins" --> locationPluginListA

  locationB -- "Exec Proxy Plugins" --> locationPluginListB

  locationPluginListA -- "proxy pass: 10.0.0.1:8001" --> upstreamA1

  locationPluginListA -- "proxy pass: 10.0.0.2:8001" --> upstreamA2

  locationPluginListA -- "done" --> response

  locationPluginListB -- "proxy pass: 10.0.0.1:8002" --> upstreamB1

  locationPluginListB -- "proxy pass: 10.0.0.2:8002" --> upstreamB2

  locationPluginListB -- "done" --> response

  upstreamA1 -- "Exec Response Plugins" --> locationResponsePluginListA
  upstreamA2 -- "Exec Response Plugins" --> locationResponsePluginListA

  upstreamB1 -- "Exec Response Plugins" --> locationResponsePluginListB
  upstreamB2 -- "Exec Response Plugins" --> locationResponsePluginListB

  locationResponsePluginListA --> response
  locationResponsePluginListB --> response

  response["HTTP Response"] --> stop("Logging");
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Performance

CPU: M2, Thread: 1

Ping no accces log:

wrk 'http://127.0.0.1:6188/ping' --latency

Running 10s test @ http://127.0.0.1:6188/ping
  2 threads and 10 connections
  Thread Stats   Avg      Stdev     Max   +/- Stdev
    Latency    67.10us   67.52us   4.63ms   99.53%
    Req/Sec    74.82k     2.57k   85.56k    92.57%
  Latency Distribution
     50%   69.00us
     75%   76.00us
     90%   83.00us
     99%  105.00us
  1504165 requests in 10.10s, 196.52MB read
Requests/sec: 148928.76
Transfer/sec:     19.46MB

Rust version

Our current MSRV is 1.74

License

This project is Licensed under Apache License, Version 2.0.