ingress
apisix
ingress | apisix | |
---|---|---|
7 | 64 | |
578 | 13,749 | |
3.3% | 1.2% | |
8.3 | 9.6 | |
8 days ago | 4 days ago | |
Go | Lua | |
Apache License 2.0 | Apache License 2.0 |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
ingress
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What are the most popular ingress controllers
Caddy
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Nginx Modern Reference Architectures
That is true, unfortunately. We, the core maintainers, don't use k8s ourselves, so we need to defer to the community for help. See https://github.com/caddyserver/ingress
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Show HN: Caddy v2.5.0
Caddy at its simplest form is an HTTP server. So you could use it to front end your application that otherwise isn't well suited for taking direct HTTP requests. Caddy would bring you other features like TLS support.
However I think in K8s world Caddy would make the most sense as an Ingress Controller. There is even a project as such: https://github.com/caddyserver/ingress
All traffic would terminate first at Caddy. Handling TLS, HTTP1/2/3, etc. Then passing it back to your application service/pod.
- Cloudflare Proxy Alternative
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For local projects, do you change your node port range?
Sorry actually I'm mixing up caddy with traefik. And ingress is an http lb + something that talks to k8s to dynamically update the configuration. Caddy has a WIP ingress project https://github.com/caddyserver/ingress
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Considering (and deciding against) a switch from Traefik to an Envoy-based Ingress Controller
We have an ingress controller in the works by the community here: https://github.com/caddyserver/ingress
apisix
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Ask HN: Are there any open source forks of nomad smd consul?
> I think etcd is basically a k8s only project now
I hate etcd with the best of them, but etcd is used in a lot more places than just kubernetes:
https://github.com/apache/apisix/blob/master/docs/en/latest/...
https://github.com/traefik/traefik#:~:text=Etcd,
https://github.com/zalando/patroni#patroni-a-template-for-po...
https://github.com/purpleidea/mgmt/tree/0.0.26/etcd (this one shows up on HN quite a bit)
https://github.com/sorintlab/stolon#features
It's actually one of the major reasons I wouldn't touch those projects
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Multi-layer Caching in API Gateway Tackles High Traffic Challenges
Through this intelligent caching mechanism, APISIX efficiently utilizes system resources when handling a large volume of requests, thereby improving overall system performance and stability. APISIX, with its advanced LRU cache, provides developers with a reliable and efficient API gateway solution, facilitating smooth communication with external services.
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Apache APISIX plugin priority, a leaky abstraction?
The main issue is that priority is documented in the config-default.yaml file, while the phase is buried in the code. Worse, some plugins run across different phases. For example, let's check the proxy proxy-rewrite plugin and, more precisely, the functions defined there:
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A "Tiny" APISIX Plugin
// references: // https://github.com/tetratelabs/proxy-wasm-go-sdk/tree/main/examples // https://github.com/apache/apisix/blob/master/t/wasm/ package main import ( "github.com/tetratelabs/proxy-wasm-go-sdk/proxywasm" "github.com/tetratelabs/proxy-wasm-go-sdk/proxywasm/types" "github.com/valyala/fastjson" ) func main() { proxywasm.SetVMContext(&vmContext{}) } // each plugin has its own VMContext. // it is responsible for creating multiple PluginContexts for each route. type vmContext struct { types.DefaultVMContext } // each route has its own PluginContext. // it corresponds to one instance of the plugin. func (*vmContext) NewPluginContext(contextID uint32) types.PluginContext { return &pluginContext{} } type header struct { Name string Value string } type pluginContext struct { types.DefaultPluginContext Headers []header } func (ctx *pluginContext) OnPluginStart(pluginConfigurationSize int) types.OnPluginStartStatus { data, err := proxywasm.GetPluginConfiguration() if err != nil { proxywasm.LogErrorf("error reading plugin configuration: %v", err) return types.OnPluginStartStatusFailed } var p fastjson.Parser v, err := p.ParseBytes(data) if err != nil { proxywasm.LogErrorf("error decoding plugin configuration: %v", err) return types.OnPluginStartStatusFailed } headers := v.GetArray("headers") ctx.Headers = make([]header, len(headers)) for i, hdr := range headers { ctx.Headers[i] = header{ Name: string(hdr.GetStringBytes("name")), Value: string(hdr.GetStringBytes("value")), } } return types.OnPluginStartStatusOK } // each HTTP request to a route has its own HTTPContext func (ctx *pluginContext) NewHttpContext(contextID uint32) types.HttpContext { return &httpContext{parent: ctx} } type httpContext struct { types.DefaultHttpContext parent *pluginContext } func (ctx *httpContext) OnHttpResponseHeaders(numHeaders int, endOfStream bool) types.Action { plugin := ctx.parent for _, hdr := range plugin.Headers { proxywasm.ReplaceHttpResponseHeader(hdr.Name, hdr.Value) } return types.ActionContinue }
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10 Reasons for Choosing API7
API7 takes Apache APISIX as its robust foundation, which is open-source and has an active community with over 600 contributors all over the world. The nature of open source allows users to examine the source code, which promotes transparency. This transparency helps users understand how APISIX works, verify its security, and identify and fix any potential vulnerabilities or bugs.
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How is Apache APISIX Fast?
But the best part is that the libraries mentioned here and Apache APISIX are entirely open source, meaning you can look under the hood and modify things yourself.
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Ops friendly Apache APISIX
Default configuration
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Custom Plugin Development For APISIX With Lua And ChatGPT
4. Plugin definition: It is a really important part of plugin implementation that we define as a table with properties for the version, priority, name, and schema. The name and schema are the plugin's name and schema defined earlier. The version and priority are used by APISIX to manage the plugin. The version typically refers to the version that is currently in use like API versioning. If you publish and update your plugin logic, it is going to be 1.1 (You can set any version you wish). But you need to be very careful in choosing priority. The priority field defines in which order and phase your plugin should be executed. For example, the 'ip-restriction' plugin, with a priority of 3000, will be executed before the 'example-plugin', which has a priority of 0. This is due to the higher priority value of the 'ip-restriction' plugin. If you're developing your own plugin, make sure that you followed the order of plugins not to mess up the order of existing plugins. You can check the order of existing plugins in the config-default.yaml file and open the Apache APISIX Plugin Development Guide to determine.
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Your opinion on Kong
Their use of etcd was a hard pass for me; I don't need more etcd in my life
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The Ultimate Beginner’s Guide to Open Source Contribution
Apache APISIX Apache APISIX is an open source, dynamic, real-time, high-performance cloud native API gateway. APISIX provides rich traffic management features such as load balancing, dynamic upstream, canary release, circuit breaking, authentication, observability, and more. Official website https://apisix.apache.org/ GitHub projects APISIX (the core): https://github.com/apache/apisix GitHub - apache/apisix: The Cloud-Native API Gateway GitHub - apache/apisix-dashboard: Dashboard for Apache APISIX GitHub - apache/apisix-website: Apache APISIX Website GitHub - apache/apisix-docker: the docker for Apache APISIX GitHub - apache/apisix-go-plugin-runner: Go Plugin Runner for APISIX GitHub - apache/apisix-java-plugin-runner: APISIX Plugin Runner in Java GitHub - apache/apisix-python-plugin-runner: Apache APISIX Python plugin runner GitHub - apache/apisix-helm-chart: Apache APISIX Helm Chart GitHub - apache/apisix-ingress-controller: ingress controller for K8s
What are some alternatives?
multus-cni - A CNI meta-plugin for multi-homed pods in Kubernetes
Kong - 🦍 The Cloud-Native API Gateway and AI Gateway.
aws-load-balancer-controller - A Kubernetes controller for Elastic Load Balancers
haproxy-lua-http - Simple Lua HTTP helper && client for use with HAProxy.
caddy-l4 - Layer 4 (TCP/UDP) app for Caddy
emissary - open source Kubernetes-native API gateway for microservices built on the Envoy Proxy
metallb - A network load-balancer implementation for Kubernetes using standard routing protocols
envoy - Cloud-native high-performance edge/middle/service proxy
Caddy - Fast and extensible multi-platform HTTP/1-2-3 web server with automatic HTTPS
lua-resty-auto-ssl - On the fly (and free) SSL registration and renewal inside OpenResty/nginx with Let's Encrypt.
gateway-api - Repository for the next iteration of composite service (e.g. Ingress) and load balancing APIs.
tyk-operator - Tyk Operator for Kubernetes