Added embedded favicons, and replaced default mux with go-chi

This commit is contained in:
Seednode 2023-05-30 18:47:26 -05:00
parent c31518d932
commit 229aaa7da2
30 changed files with 2740 additions and 11 deletions

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<?xml version="1.0" encoding="utf-8"?>
<browserconfig>
<msapplication>
<tile>
<square150x150logo src="/mstile-150x150.png"/>
<TileColor>#da532c</TileColor>
</tile>
</msapplication>
</browserconfig>

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<?xml version="1.0" standalone="no"?>
<!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 20010904//EN"
"http://www.w3.org/TR/2001/REC-SVG-20010904/DTD/svg10.dtd">
<svg version="1.0" xmlns="http://www.w3.org/2000/svg"
width="700.000000pt" height="700.000000pt" viewBox="0 0 700.000000 700.000000"
preserveAspectRatio="xMidYMid meet">
<metadata>
Created by potrace 1.14, written by Peter Selinger 2001-2017
</metadata>
<g transform="translate(0.000000,700.000000) scale(0.100000,-0.100000)"
fill="#000000" stroke="none">
<path d="M3278 6995 c-2 -1 -42 -5 -89 -9 -47 -4 -95 -8 -105 -10 -10 -2 -41
-7 -69 -10 -335 -44 -715 -158 -1030 -312 -180 -87 -448 -247 -555 -331 -8 -6
-51 -40 -95 -74 -340 -264 -650 -624 -875 -1014 -47 -83 -170 -327 -170 -340
0 -3 -9 -24 -20 -48 -57 -123 -157 -435 -186 -582 -2 -11 -10 -54 -19 -95 -29
-147 -36 -200 -52 -370 -15 -165 -8 -592 12 -711 2 -13 6 -46 9 -74 9 -78 22
-152 51 -285 21 -96 91 -339 114 -395 5 -11 25 -65 46 -120 49 -130 168 -373
244 -500 391 -648 952 -1139 1640 -1435 269 -115 598 -207 880 -246 25 -3 57
-8 71 -10 163 -25 682 -25 842 1 13 2 46 7 73 10 71 10 87 13 115 18 14 3 43
8 65 12 115 21 314 74 455 122 188 64 473 192 614 278 32 19 62 35 67 35 5 0
9 5 9 10 0 6 5 10 10 10 15 0 220 141 330 227 152 118 324 280 450 422 36 41
70 79 76 85 6 6 48 61 94 121 150 197 277 405 383 628 26 53 47 99 47 102 0 2
11 28 24 57 57 127 151 421 182 573 17 81 54 301 59 350 4 33 9 71 11 85 9 47
11 525 4 605 -15 157 -21 210 -25 225 -2 8 -7 35 -10 60 -17 129 -80 384 -136
552 -348 1036 -1168 1857 -2204 2206 -163 55 -429 121 -555 137 -19 3 -46 7
-60 10 -13 2 -52 7 -86 11 -33 3 -74 8 -90 10 -32 5 -540 14 -546 9z"/>
</g>
</svg>

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@ -0,0 +1,19 @@
{
"name": "",
"short_name": "",
"icons": [
{
"src": "/android-chrome-192x192.png",
"sizes": "192x192",
"type": "image/png"
},
{
"src": "/android-chrome-512x512.png",
"sizes": "512x512",
"type": "image/png"
}
],
"theme_color": "#ffffff",
"background_color": "#ffffff",
"display": "standalone"
}

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@ -76,5 +76,5 @@ func init() {
})
rootCmd.SetVersionTemplate("roulette v{{.Version}}\n")
rootCmd.Version = "0.46.1"
rootCmd.Version = "0.47.0"
}

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@ -5,6 +5,8 @@ Copyright © 2023 Seednode <seednode@seedno.de>
package cmd
import (
"bytes"
"embed"
"encoding/gob"
"encoding/json"
"fmt"
@ -26,10 +28,14 @@ import (
"syscall"
"time"
"github.com/go-chi/chi/v5"
"github.com/klauspost/compress/zstd"
"github.com/yosssi/gohtml"
)
//go:embed img/*
var favicons embed.FS
const (
LogDate string = `2006-01-02T15:04:05.000-07:00`
Prefix string = `/src`
@ -864,6 +870,13 @@ func serveMedia(paths []string, Regexes *Regexes, index *Index) http.HandlerFunc
var htmlBody strings.Builder
htmlBody.WriteString(`<!DOCTYPE html><html lang="en"><head>`)
htmlBody.WriteString(`<link rel="apple-touch-icon" sizes="180x180" href="/apple-touch-icon.png">`)
htmlBody.WriteString(`<link rel="icon" type="image/png" sizes="32x32" href="/favicon-32x32.png">`)
htmlBody.WriteString(`<link rel="icon" type="image/png" sizes="16x16" href="/favicon-16x16.png">`)
htmlBody.WriteString(`<link rel="manifest" href="/site.webmanifest">`)
htmlBody.WriteString(`<link rel="mask-icon" href="/safari-pinned-tab.svg" color="#5bbad5">`)
htmlBody.WriteString(`<meta name="msapplication-TileColor" content="#da532c">`)
htmlBody.WriteString(`<meta name="theme-color" content="#ffffff">`)
htmlBody.WriteString(`<style>html,body{margin:0;padding:0;height:100%;}`)
htmlBody.WriteString(`a{display:block;height:100%;width:100%;text-decoration:none;}`)
htmlBody.WriteString(`img,video{margin:auto;display:block;max-width:97%;max-height:97%;object-fit:scale-down;`)
@ -909,7 +922,67 @@ func serveMedia(paths []string, Regexes *Regexes, index *Index) http.HandlerFunc
}
}
func doNothing(http.ResponseWriter, *http.Request) {}
func registerIcoHandlers(router *chi.Mux) {
router.HandleFunc("/favicon.ico", func(w http.ResponseWriter, r *http.Request) {
data, err := favicons.ReadFile("img/favicon.ico")
if err != nil {
return
}
w.Header().Write(bytes.NewBufferString("Content-Type: image/x-icon"))
w.Header().Write(bytes.NewBufferString("Content-Length: " + strconv.Itoa(len(data))))
w.Write(data)
})
router.HandleFunc("/apple-touch-icon.png", func(w http.ResponseWriter, r *http.Request) {
data, err := favicons.ReadFile("img/apple-touch-icon.png")
if err != nil {
return
}
w.Header().Write(bytes.NewBufferString("Content-Type: image/png"))
w.Header().Write(bytes.NewBufferString("Content-Length: " + strconv.Itoa(len(data))))
w.Write(data)
})
router.HandleFunc("/favicon-32x32.png", func(w http.ResponseWriter, r *http.Request) {
data, err := favicons.ReadFile("img/favicon-32x32.png")
if err != nil {
return
}
w.Header().Write(bytes.NewBufferString("Content-Type: image/png"))
w.Header().Write(bytes.NewBufferString("Content-Length: " + strconv.Itoa(len(data))))
w.Write(data)
})
router.HandleFunc("/favicon-16x16.png", func(w http.ResponseWriter, r *http.Request) {
data, err := favicons.ReadFile("img/favicon-16x16.png")
if err != nil {
return
}
w.Header().Write(bytes.NewBufferString("Content-Type: image/png"))
w.Header().Write(bytes.NewBufferString("Content-Length: " + strconv.Itoa(len(data))))
w.Write(data)
})
router.HandleFunc("/site.webmanifest", func(w http.ResponseWriter, r *http.Request) {
data, err := favicons.ReadFile("img/site.webmanifest")
if err != nil {
return
}
w.Header().Write(bytes.NewBufferString("Content-Type: application/json"))
w.Header().Write(bytes.NewBufferString("Content-Length: " + strconv.Itoa(len(data))))
w.Write(data)
})
router.HandleFunc("/safari-pinned-tab.svg", func(w http.ResponseWriter, r *http.Request) {
data, err := favicons.ReadFile("img/safari-pinned-tab.svg")
if err != nil {
return
}
w.Header().Write(bytes.NewBufferString("Content-Type: image/svg+xml"))
w.Header().Write(bytes.NewBufferString("Content-Length: " + strconv.Itoa(len(data))))
w.Write(data)
})
}
func ServePage(args []string) error {
bindHost, err := net.LookupHost(bind)
@ -946,6 +1019,10 @@ func ServePage(args []string) error {
list: []string{},
}
router := chi.NewRouter()
registerIcoHandlers(router)
if cache {
skipIndex := false
@ -960,7 +1037,7 @@ func ServePage(args []string) error {
index.generateCache(args)
}
http.Handle("/_/clear_cache", serveCacheClear(args, index))
router.Handle("/_/clear_cache", serveCacheClear(args, index))
}
stats := &ServeStats{
@ -983,21 +1060,20 @@ func ServePage(args []string) error {
os.Exit(0)
}()
}
http.Handle("/", serveMedia(paths, Regexes, index))
http.Handle(Prefix+"/", http.StripPrefix(Prefix, serveStaticFile(paths, stats)))
http.HandleFunc("/favicon.ico", doNothing)
router.Handle(Prefix+"/*", http.StripPrefix(Prefix, serveStaticFile(paths, stats)))
if statistics {
http.Handle("/_/stats", serveStats(args, stats))
router.Handle("/_/stats", serveStats(args, stats))
}
if debug {
http.Handle("/_/html", serveDebugHtml(args, index))
http.Handle("/_/json", serveDebugJson(args, index))
router.Handle("/_/html", serveDebugHtml(args, index))
router.Handle("/_/json", serveDebugJson(args, index))
}
err = http.ListenAndServe(net.JoinHostPort(bind, strconv.FormatInt(int64(port), 10)), nil)
router.Handle("/*", serveMedia(paths, Regexes, index))
err = http.ListenAndServe(net.JoinHostPort(bind, strconv.FormatInt(int64(port), 10)), router)
if err != nil {
return err
}

1
go.mod
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@ -3,6 +3,7 @@ module seedno.de/seednode/roulette
go 1.20
require (
github.com/go-chi/chi/v5 v5.0.8
github.com/h2non/filetype v1.1.3
github.com/klauspost/compress v1.16.5
github.com/spf13/cobra v1.7.0

2
go.sum
View File

@ -1,4 +1,6 @@
github.com/cpuguy83/go-md2man/v2 v2.0.2/go.mod h1:tgQtvFlXSQOSOSIRvRPT7W67SCa46tRHOmNcaadrF8o=
github.com/go-chi/chi/v5 v5.0.8 h1:lD+NLqFcAi1ovnVZpsnObHGW4xb4J8lNmoYVfECH1Y0=
github.com/go-chi/chi/v5 v5.0.8/go.mod h1:DslCQbL2OYiznFReuXYUmQ2hGd1aDpCnlMNITLSKoi8=
github.com/h2non/filetype v1.1.3 h1:FKkx9QbD7HR/zjK1Ia5XiBsq9zdLi5Kf3zGyFTAFkGg=
github.com/h2non/filetype v1.1.3/go.mod h1:319b3zT68BvV+WRj7cwy856M2ehB3HqNOt6sy1HndBY=
github.com/inconshreveable/mousetrap v1.1.0 h1:wN+x4NVGpMsO7ErUn/mUI3vEoE6Jt13X2s0bqwp9tc8=

3
vendor/github.com/go-chi/chi/v5/.gitignore generated vendored Normal file
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@ -0,0 +1,3 @@
.idea
*.sw?
.vscode

320
vendor/github.com/go-chi/chi/v5/CHANGELOG.md generated vendored Normal file
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@ -0,0 +1,320 @@
# Changelog
## v5.0.8 (2022-12-07)
- History of changes: see https://github.com/go-chi/chi/compare/v5.0.7...v5.0.8
## v5.0.7 (2021-11-18)
- History of changes: see https://github.com/go-chi/chi/compare/v5.0.6...v5.0.7
## v5.0.6 (2021-11-15)
- History of changes: see https://github.com/go-chi/chi/compare/v5.0.5...v5.0.6
## v5.0.5 (2021-10-27)
- History of changes: see https://github.com/go-chi/chi/compare/v5.0.4...v5.0.5
## v5.0.4 (2021-08-29)
- History of changes: see https://github.com/go-chi/chi/compare/v5.0.3...v5.0.4
## v5.0.3 (2021-04-29)
- History of changes: see https://github.com/go-chi/chi/compare/v5.0.2...v5.0.3
## v5.0.2 (2021-03-25)
- History of changes: see https://github.com/go-chi/chi/compare/v5.0.1...v5.0.2
## v5.0.1 (2021-03-10)
- Small improvements
- History of changes: see https://github.com/go-chi/chi/compare/v5.0.0...v5.0.1
## v5.0.0 (2021-02-27)
- chi v5, `github.com/go-chi/chi/v5` introduces the adoption of Go's SIV to adhere to the current state-of-the-tools in Go.
- chi v1.5.x did not work out as planned, as the Go tooling is too powerful and chi's adoption is too wide.
The most responsible thing to do for everyone's benefit is to just release v5 with SIV, so I present to you all,
chi v5 at `github.com/go-chi/chi/v5`. I hope someday the developer experience and ergonomics I've been seeking
will still come to fruition in some form, see https://github.com/golang/go/issues/44550
- History of changes: see https://github.com/go-chi/chi/compare/v1.5.4...v5.0.0
## v1.5.4 (2021-02-27)
- Undo prior retraction in v1.5.3 as we prepare for v5.0.0 release
- History of changes: see https://github.com/go-chi/chi/compare/v1.5.3...v1.5.4
## v1.5.3 (2021-02-21)
- Update go.mod to go 1.16 with new retract directive marking all versions without prior go.mod support
- History of changes: see https://github.com/go-chi/chi/compare/v1.5.2...v1.5.3
## v1.5.2 (2021-02-10)
- Reverting allocation optimization as a precaution as go test -race fails.
- Minor improvements, see history below
- History of changes: see https://github.com/go-chi/chi/compare/v1.5.1...v1.5.2
## v1.5.1 (2020-12-06)
- Performance improvement: removing 1 allocation by foregoing context.WithValue, thank you @bouk for
your contribution (https://github.com/go-chi/chi/pull/555). Note: new benchmarks posted in README.
- `middleware.CleanPath`: new middleware that clean's request path of double slashes
- deprecate & remove `chi.ServerBaseContext` in favour of stdlib `http.Server#BaseContext`
- plus other tiny improvements, see full commit history below
- History of changes: see https://github.com/go-chi/chi/compare/v4.1.2...v1.5.1
## v1.5.0 (2020-11-12) - now with go.mod support
`chi` dates back to 2016 with it's original implementation as one of the first routers to adopt the newly introduced
context.Context api to the stdlib -- set out to design a router that is faster, more modular and simpler than anything
else out there -- while not introducing any custom handler types or dependencies. Today, `chi` still has zero dependencies,
and in many ways is future proofed from changes, given it's minimal nature. Between versions, chi's iterations have been very
incremental, with the architecture and api being the same today as it was originally designed in 2016. For this reason it
makes chi a pretty easy project to maintain, as well thanks to the many amazing community contributions over the years
to who all help make chi better (total of 86 contributors to date -- thanks all!).
Chi has been an labour of love, art and engineering, with the goals to offer beautiful ergonomics, flexibility, performance
and simplicity when building HTTP services with Go. I've strived to keep the router very minimal in surface area / code size,
and always improving the code wherever possible -- and as of today the `chi` package is just 1082 lines of code (not counting
middlewares, which are all optional). As well, I don't have the exact metrics, but from my analysis and email exchanges from
companies and developers, chi is used by thousands of projects around the world -- thank you all as there is no better form of
joy for me than to have art I had started be helpful and enjoyed by others. And of course I use chi in all of my own projects too :)
For me, the asthetics of chi's code and usage are very important. With the introduction of Go's module support
(which I'm a big fan of), chi's past versioning scheme choice to v2, v3 and v4 would mean I'd require the import path
of "github.com/go-chi/chi/v4", leading to the lengthy discussion at https://github.com/go-chi/chi/issues/462.
Haha, to some, you may be scratching your head why I've spent > 1 year stalling to adopt "/vXX" convention in the import
path -- which isn't horrible in general -- but for chi, I'm unable to accept it as I strive for perfection in it's API design,
aesthetics and simplicity. It just doesn't feel good to me given chi's simple nature -- I do not foresee a "v5" or "v6",
and upgrading between versions in the future will also be just incremental.
I do understand versioning is a part of the API design as well, which is why the solution for a while has been to "do nothing",
as Go supports both old and new import paths with/out go.mod. However, now that Go module support has had time to iron out kinks and
is adopted everywhere, it's time for chi to get with the times. Luckily, I've discovered a path forward that will make me happy,
while also not breaking anyone's app who adopted a prior versioning from tags in v2/v3/v4. I've made an experimental release of
v1.5.0 with go.mod silently, and tested it with new and old projects, to ensure the developer experience is preserved, and it's
largely unnoticed. Fortunately, Go's toolchain will check the tags of a repo and consider the "latest" tag the one with go.mod.
However, you can still request a specific older tag such as v4.1.2, and everything will "just work". But new users can just
`go get github.com/go-chi/chi` or `go get github.com/go-chi/chi@latest` and they will get the latest version which contains
go.mod support, which is v1.5.0+. `chi` will not change very much over the years, just like it hasn't changed much from 4 years ago.
Therefore, we will stay on v1.x from here on, starting from v1.5.0. Any breaking changes will bump a "minor" release and
backwards-compatible improvements/fixes will bump a "tiny" release.
For existing projects who want to upgrade to the latest go.mod version, run: `go get -u github.com/go-chi/chi@v1.5.0`,
which will get you on the go.mod version line (as Go's mod cache may still remember v4.x). Brand new systems can run
`go get -u github.com/go-chi/chi` or `go get -u github.com/go-chi/chi@latest` to install chi, which will install v1.5.0+
built with go.mod support.
My apologies to the developers who will disagree with the decisions above, but, hope you'll try it and see it's a very
minor request which is backwards compatible and won't break your existing installations.
Cheers all, happy coding!
---
## v4.1.2 (2020-06-02)
- fix that handles MethodNotAllowed with path variables, thank you @caseyhadden for your contribution
- fix to replace nested wildcards correctly in RoutePattern, thank you @@unmultimedio for your contribution
- History of changes: see https://github.com/go-chi/chi/compare/v4.1.1...v4.1.2
## v4.1.1 (2020-04-16)
- fix for issue https://github.com/go-chi/chi/issues/411 which allows for overlapping regexp
route to the correct handler through a recursive tree search, thanks to @Jahaja for the PR/fix!
- new middleware.RouteHeaders as a simple router for request headers with wildcard support
- History of changes: see https://github.com/go-chi/chi/compare/v4.1.0...v4.1.1
## v4.1.0 (2020-04-1)
- middleware.LogEntry: Write method on interface now passes the response header
and an extra interface type useful for custom logger implementations.
- middleware.WrapResponseWriter: minor fix
- middleware.Recoverer: a bit prettier
- History of changes: see https://github.com/go-chi/chi/compare/v4.0.4...v4.1.0
## v4.0.4 (2020-03-24)
- middleware.Recoverer: new pretty stack trace printing (https://github.com/go-chi/chi/pull/496)
- a few minor improvements and fixes
- History of changes: see https://github.com/go-chi/chi/compare/v4.0.3...v4.0.4
## v4.0.3 (2020-01-09)
- core: fix regexp routing to include default value when param is not matched
- middleware: rewrite of middleware.Compress
- middleware: suppress http.ErrAbortHandler in middleware.Recoverer
- History of changes: see https://github.com/go-chi/chi/compare/v4.0.2...v4.0.3
## v4.0.2 (2019-02-26)
- Minor fixes
- History of changes: see https://github.com/go-chi/chi/compare/v4.0.1...v4.0.2
## v4.0.1 (2019-01-21)
- Fixes issue with compress middleware: #382 #385
- History of changes: see https://github.com/go-chi/chi/compare/v4.0.0...v4.0.1
## v4.0.0 (2019-01-10)
- chi v4 requires Go 1.10.3+ (or Go 1.9.7+) - we have deprecated support for Go 1.7 and 1.8
- router: respond with 404 on router with no routes (#362)
- router: additional check to ensure wildcard is at the end of a url pattern (#333)
- middleware: deprecate use of http.CloseNotifier (#347)
- middleware: fix RedirectSlashes to include query params on redirect (#334)
- History of changes: see https://github.com/go-chi/chi/compare/v3.3.4...v4.0.0
## v3.3.4 (2019-01-07)
- Minor middleware improvements. No changes to core library/router. Moving v3 into its
- own branch as a version of chi for Go 1.7, 1.8, 1.9, 1.10, 1.11
- History of changes: see https://github.com/go-chi/chi/compare/v3.3.3...v3.3.4
## v3.3.3 (2018-08-27)
- Minor release
- See https://github.com/go-chi/chi/compare/v3.3.2...v3.3.3
## v3.3.2 (2017-12-22)
- Support to route trailing slashes on mounted sub-routers (#281)
- middleware: new `ContentCharset` to check matching charsets. Thank you
@csucu for your community contribution!
## v3.3.1 (2017-11-20)
- middleware: new `AllowContentType` handler for explicit whitelist of accepted request Content-Types
- middleware: new `SetHeader` handler for short-hand middleware to set a response header key/value
- Minor bug fixes
## v3.3.0 (2017-10-10)
- New chi.RegisterMethod(method) to add support for custom HTTP methods, see _examples/custom-method for usage
- Deprecated LINK and UNLINK methods from the default list, please use `chi.RegisterMethod("LINK")` and `chi.RegisterMethod("UNLINK")` in an `init()` function
## v3.2.1 (2017-08-31)
- Add new `Match(rctx *Context, method, path string) bool` method to `Routes` interface
and `Mux`. Match searches the mux's routing tree for a handler that matches the method/path
- Add new `RouteMethod` to `*Context`
- Add new `Routes` pointer to `*Context`
- Add new `middleware.GetHead` to route missing HEAD requests to GET handler
- Updated benchmarks (see README)
## v3.1.5 (2017-08-02)
- Setup golint and go vet for the project
- As per golint, we've redefined `func ServerBaseContext(h http.Handler, baseCtx context.Context) http.Handler`
to `func ServerBaseContext(baseCtx context.Context, h http.Handler) http.Handler`
## v3.1.0 (2017-07-10)
- Fix a few minor issues after v3 release
- Move `docgen` sub-pkg to https://github.com/go-chi/docgen
- Move `render` sub-pkg to https://github.com/go-chi/render
- Add new `URLFormat` handler to chi/middleware sub-pkg to make working with url mime
suffixes easier, ie. parsing `/articles/1.json` and `/articles/1.xml`. See comments in
https://github.com/go-chi/chi/blob/master/middleware/url_format.go for example usage.
## v3.0.0 (2017-06-21)
- Major update to chi library with many exciting updates, but also some *breaking changes*
- URL parameter syntax changed from `/:id` to `/{id}` for even more flexible routing, such as
`/articles/{month}-{day}-{year}-{slug}`, `/articles/{id}`, and `/articles/{id}.{ext}` on the
same router
- Support for regexp for routing patterns, in the form of `/{paramKey:regExp}` for example:
`r.Get("/articles/{name:[a-z]+}", h)` and `chi.URLParam(r, "name")`
- Add `Method` and `MethodFunc` to `chi.Router` to allow routing definitions such as
`r.Method("GET", "/", h)` which provides a cleaner interface for custom handlers like
in `_examples/custom-handler`
- Deprecating `mux#FileServer` helper function. Instead, we encourage users to create their
own using file handler with the stdlib, see `_examples/fileserver` for an example
- Add support for LINK/UNLINK http methods via `r.Method()` and `r.MethodFunc()`
- Moved the chi project to its own organization, to allow chi-related community packages to
be easily discovered and supported, at: https://github.com/go-chi
- *NOTE:* please update your import paths to `"github.com/go-chi/chi"`
- *NOTE:* chi v2 is still available at https://github.com/go-chi/chi/tree/v2
## v2.1.0 (2017-03-30)
- Minor improvements and update to the chi core library
- Introduced a brand new `chi/render` sub-package to complete the story of building
APIs to offer a pattern for managing well-defined request / response payloads. Please
check out the updated `_examples/rest` example for how it works.
- Added `MethodNotAllowed(h http.HandlerFunc)` to chi.Router interface
## v2.0.0 (2017-01-06)
- After many months of v2 being in an RC state with many companies and users running it in
production, the inclusion of some improvements to the middlewares, we are very pleased to
announce v2.0.0 of chi.
## v2.0.0-rc1 (2016-07-26)
- Huge update! chi v2 is a large refactor targetting Go 1.7+. As of Go 1.7, the popular
community `"net/context"` package has been included in the standard library as `"context"` and
utilized by `"net/http"` and `http.Request` to managing deadlines, cancelation signals and other
request-scoped values. We're very excited about the new context addition and are proud to
introduce chi v2, a minimal and powerful routing package for building large HTTP services,
with zero external dependencies. Chi focuses on idiomatic design and encourages the use of
stdlib HTTP handlers and middlwares.
- chi v2 deprecates its `chi.Handler` interface and requires `http.Handler` or `http.HandlerFunc`
- chi v2 stores URL routing parameters and patterns in the standard request context: `r.Context()`
- chi v2 lower-level routing context is accessible by `chi.RouteContext(r.Context()) *chi.Context`,
which provides direct access to URL routing parameters, the routing path and the matching
routing patterns.
- Users upgrading from chi v1 to v2, need to:
1. Update the old chi.Handler signature, `func(ctx context.Context, w http.ResponseWriter, r *http.Request)` to
the standard http.Handler: `func(w http.ResponseWriter, r *http.Request)`
2. Use `chi.URLParam(r *http.Request, paramKey string) string`
or `URLParamFromCtx(ctx context.Context, paramKey string) string` to access a url parameter value
## v1.0.0 (2016-07-01)
- Released chi v1 stable https://github.com/go-chi/chi/tree/v1.0.0 for Go 1.6 and older.
## v0.9.0 (2016-03-31)
- Reuse context objects via sync.Pool for zero-allocation routing [#33](https://github.com/go-chi/chi/pull/33)
- BREAKING NOTE: due to subtle API changes, previously `chi.URLParams(ctx)["id"]` used to access url parameters
has changed to: `chi.URLParam(ctx, "id")`

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# Contributing
## Prerequisites
1. [Install Go][go-install].
2. Download the sources and switch the working directory:
```bash
go get -u -d github.com/go-chi/chi
cd $GOPATH/src/github.com/go-chi/chi
```
## Submitting a Pull Request
A typical workflow is:
1. [Fork the repository.][fork] [This tip maybe also helpful.][go-fork-tip]
2. [Create a topic branch.][branch]
3. Add tests for your change.
4. Run `go test`. If your tests pass, return to the step 3.
5. Implement the change and ensure the steps from the previous step pass.
6. Run `goimports -w .`, to ensure the new code conforms to Go formatting guideline.
7. [Add, commit and push your changes.][git-help]
8. [Submit a pull request.][pull-req]
[go-install]: https://golang.org/doc/install
[go-fork-tip]: http://blog.campoy.cat/2014/03/github-and-go-forking-pull-requests-and.html
[fork]: https://help.github.com/articles/fork-a-repo
[branch]: http://learn.github.com/p/branching.html
[git-help]: https://guides.github.com
[pull-req]: https://help.github.com/articles/using-pull-requests

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Copyright (c) 2015-present Peter Kieltyka (https://github.com/pkieltyka), Google Inc.
MIT License
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
the Software, and to permit persons to whom the Software is furnished to do so,
subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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.PHONY: all
all:
@echo "**********************************************************"
@echo "** chi build tool **"
@echo "**********************************************************"
.PHONY: test
test:
go clean -testcache && $(MAKE) test-router && $(MAKE) test-middleware
.PHONY: test-router
test-router:
go test -race -v .
.PHONY: test-middleware
test-middleware:
go test -race -v ./middleware
.PHONY: docs
docs:
npx docsify-cli serve ./docs

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# <img alt="chi" src="https://cdn.rawgit.com/go-chi/chi/master/_examples/chi.svg" width="220" />
[![GoDoc Widget]][GoDoc] [![Travis Widget]][Travis]
`chi` is a lightweight, idiomatic and composable router for building Go HTTP services. It's
especially good at helping you write large REST API services that are kept maintainable as your
project grows and changes. `chi` is built on the new `context` package introduced in Go 1.7 to
handle signaling, cancelation and request-scoped values across a handler chain.
The focus of the project has been to seek out an elegant and comfortable design for writing
REST API servers, written during the development of the Pressly API service that powers our
public API service, which in turn powers all of our client-side applications.
The key considerations of chi's design are: project structure, maintainability, standard http
handlers (stdlib-only), developer productivity, and deconstructing a large system into many small
parts. The core router `github.com/go-chi/chi` is quite small (less than 1000 LOC), but we've also
included some useful/optional subpackages: [middleware](/middleware), [render](https://github.com/go-chi/render)
and [docgen](https://github.com/go-chi/docgen). We hope you enjoy it too!
## Install
`go get -u github.com/go-chi/chi/v5`
## Features
* **Lightweight** - cloc'd in ~1000 LOC for the chi router
* **Fast** - yes, see [benchmarks](#benchmarks)
* **100% compatible with net/http** - use any http or middleware pkg in the ecosystem that is also compatible with `net/http`
* **Designed for modular/composable APIs** - middlewares, inline middlewares, route groups and sub-router mounting
* **Context control** - built on new `context` package, providing value chaining, cancellations and timeouts
* **Robust** - in production at Pressly, Cloudflare, Heroku, 99Designs, and many others (see [discussion](https://github.com/go-chi/chi/issues/91))
* **Doc generation** - `docgen` auto-generates routing documentation from your source to JSON or Markdown
* **Go.mod support** - as of v5, go.mod support (see [CHANGELOG](https://github.com/go-chi/chi/blob/master/CHANGELOG.md))
* **No external dependencies** - plain ol' Go stdlib + net/http
## Examples
See [_examples/](https://github.com/go-chi/chi/blob/master/_examples/) for a variety of examples.
**As easy as:**
```go
package main
import (
"net/http"
"github.com/go-chi/chi/v5"
"github.com/go-chi/chi/v5/middleware"
)
func main() {
r := chi.NewRouter()
r.Use(middleware.Logger)
r.Get("/", func(w http.ResponseWriter, r *http.Request) {
w.Write([]byte("welcome"))
})
http.ListenAndServe(":3000", r)
}
```
**REST Preview:**
Here is a little preview of how routing looks like with chi. Also take a look at the generated routing docs
in JSON ([routes.json](https://github.com/go-chi/chi/blob/master/_examples/rest/routes.json)) and in
Markdown ([routes.md](https://github.com/go-chi/chi/blob/master/_examples/rest/routes.md)).
I highly recommend reading the source of the [examples](https://github.com/go-chi/chi/blob/master/_examples/) listed
above, they will show you all the features of chi and serve as a good form of documentation.
```go
import (
//...
"context"
"github.com/go-chi/chi/v5"
"github.com/go-chi/chi/v5/middleware"
)
func main() {
r := chi.NewRouter()
// A good base middleware stack
r.Use(middleware.RequestID)
r.Use(middleware.RealIP)
r.Use(middleware.Logger)
r.Use(middleware.Recoverer)
// Set a timeout value on the request context (ctx), that will signal
// through ctx.Done() that the request has timed out and further
// processing should be stopped.
r.Use(middleware.Timeout(60 * time.Second))
r.Get("/", func(w http.ResponseWriter, r *http.Request) {
w.Write([]byte("hi"))
})
// RESTy routes for "articles" resource
r.Route("/articles", func(r chi.Router) {
r.With(paginate).Get("/", listArticles) // GET /articles
r.With(paginate).Get("/{month}-{day}-{year}", listArticlesByDate) // GET /articles/01-16-2017
r.Post("/", createArticle) // POST /articles
r.Get("/search", searchArticles) // GET /articles/search
// Regexp url parameters:
r.Get("/{articleSlug:[a-z-]+}", getArticleBySlug) // GET /articles/home-is-toronto
// Subrouters:
r.Route("/{articleID}", func(r chi.Router) {
r.Use(ArticleCtx)
r.Get("/", getArticle) // GET /articles/123
r.Put("/", updateArticle) // PUT /articles/123
r.Delete("/", deleteArticle) // DELETE /articles/123
})
})
// Mount the admin sub-router
r.Mount("/admin", adminRouter())
http.ListenAndServe(":3333", r)
}
func ArticleCtx(next http.Handler) http.Handler {
return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
articleID := chi.URLParam(r, "articleID")
article, err := dbGetArticle(articleID)
if err != nil {
http.Error(w, http.StatusText(404), 404)
return
}
ctx := context.WithValue(r.Context(), "article", article)
next.ServeHTTP(w, r.WithContext(ctx))
})
}
func getArticle(w http.ResponseWriter, r *http.Request) {
ctx := r.Context()
article, ok := ctx.Value("article").(*Article)
if !ok {
http.Error(w, http.StatusText(422), 422)
return
}
w.Write([]byte(fmt.Sprintf("title:%s", article.Title)))
}
// A completely separate router for administrator routes
func adminRouter() http.Handler {
r := chi.NewRouter()
r.Use(AdminOnly)
r.Get("/", adminIndex)
r.Get("/accounts", adminListAccounts)
return r
}
func AdminOnly(next http.Handler) http.Handler {
return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
ctx := r.Context()
perm, ok := ctx.Value("acl.permission").(YourPermissionType)
if !ok || !perm.IsAdmin() {
http.Error(w, http.StatusText(403), 403)
return
}
next.ServeHTTP(w, r)
})
}
```
## Router interface
chi's router is based on a kind of [Patricia Radix trie](https://en.wikipedia.org/wiki/Radix_tree).
The router is fully compatible with `net/http`.
Built on top of the tree is the `Router` interface:
```go
// Router consisting of the core routing methods used by chi's Mux,
// using only the standard net/http.
type Router interface {
http.Handler
Routes
// Use appends one or more middlewares onto the Router stack.
Use(middlewares ...func(http.Handler) http.Handler)
// With adds inline middlewares for an endpoint handler.
With(middlewares ...func(http.Handler) http.Handler) Router
// Group adds a new inline-Router along the current routing
// path, with a fresh middleware stack for the inline-Router.
Group(fn func(r Router)) Router
// Route mounts a sub-Router along a `pattern`` string.
Route(pattern string, fn func(r Router)) Router
// Mount attaches another http.Handler along ./pattern/*
Mount(pattern string, h http.Handler)
// Handle and HandleFunc adds routes for `pattern` that matches
// all HTTP methods.
Handle(pattern string, h http.Handler)
HandleFunc(pattern string, h http.HandlerFunc)
// Method and MethodFunc adds routes for `pattern` that matches
// the `method` HTTP method.
Method(method, pattern string, h http.Handler)
MethodFunc(method, pattern string, h http.HandlerFunc)
// HTTP-method routing along `pattern`
Connect(pattern string, h http.HandlerFunc)
Delete(pattern string, h http.HandlerFunc)
Get(pattern string, h http.HandlerFunc)
Head(pattern string, h http.HandlerFunc)
Options(pattern string, h http.HandlerFunc)
Patch(pattern string, h http.HandlerFunc)
Post(pattern string, h http.HandlerFunc)
Put(pattern string, h http.HandlerFunc)
Trace(pattern string, h http.HandlerFunc)
// NotFound defines a handler to respond whenever a route could
// not be found.
NotFound(h http.HandlerFunc)
// MethodNotAllowed defines a handler to respond whenever a method is
// not allowed.
MethodNotAllowed(h http.HandlerFunc)
}
// Routes interface adds two methods for router traversal, which is also
// used by the github.com/go-chi/docgen package to generate documentation for Routers.
type Routes interface {
// Routes returns the routing tree in an easily traversable structure.
Routes() []Route
// Middlewares returns the list of middlewares in use by the router.
Middlewares() Middlewares
// Match searches the routing tree for a handler that matches
// the method/path - similar to routing a http request, but without
// executing the handler thereafter.
Match(rctx *Context, method, path string) bool
}
```
Each routing method accepts a URL `pattern` and chain of `handlers`. The URL pattern
supports named params (ie. `/users/{userID}`) and wildcards (ie. `/admin/*`). URL parameters
can be fetched at runtime by calling `chi.URLParam(r, "userID")` for named parameters
and `chi.URLParam(r, "*")` for a wildcard parameter.
### Middleware handlers
chi's middlewares are just stdlib net/http middleware handlers. There is nothing special
about them, which means the router and all the tooling is designed to be compatible and
friendly with any middleware in the community. This offers much better extensibility and reuse
of packages and is at the heart of chi's purpose.
Here is an example of a standard net/http middleware where we assign a context key `"user"`
the value of `"123"`. This middleware sets a hypothetical user identifier on the request
context and calls the next handler in the chain.
```go
// HTTP middleware setting a value on the request context
func MyMiddleware(next http.Handler) http.Handler {
return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
// create new context from `r` request context, and assign key `"user"`
// to value of `"123"`
ctx := context.WithValue(r.Context(), "user", "123")
// call the next handler in the chain, passing the response writer and
// the updated request object with the new context value.
//
// note: context.Context values are nested, so any previously set
// values will be accessible as well, and the new `"user"` key
// will be accessible from this point forward.
next.ServeHTTP(w, r.WithContext(ctx))
})
}
```
### Request handlers
chi uses standard net/http request handlers. This little snippet is an example of a http.Handler
func that reads a user identifier from the request context - hypothetically, identifying
the user sending an authenticated request, validated+set by a previous middleware handler.
```go
// HTTP handler accessing data from the request context.
func MyRequestHandler(w http.ResponseWriter, r *http.Request) {
// here we read from the request context and fetch out `"user"` key set in
// the MyMiddleware example above.
user := r.Context().Value("user").(string)
// respond to the client
w.Write([]byte(fmt.Sprintf("hi %s", user)))
}
```
### URL parameters
chi's router parses and stores URL parameters right onto the request context. Here is
an example of how to access URL params in your net/http handlers. And of course, middlewares
are able to access the same information.
```go
// HTTP handler accessing the url routing parameters.
func MyRequestHandler(w http.ResponseWriter, r *http.Request) {
// fetch the url parameter `"userID"` from the request of a matching
// routing pattern. An example routing pattern could be: /users/{userID}
userID := chi.URLParam(r, "userID")
// fetch `"key"` from the request context
ctx := r.Context()
key := ctx.Value("key").(string)
// respond to the client
w.Write([]byte(fmt.Sprintf("hi %v, %v", userID, key)))
}
```
## Middlewares
chi comes equipped with an optional `middleware` package, providing a suite of standard
`net/http` middlewares. Please note, any middleware in the ecosystem that is also compatible
with `net/http` can be used with chi's mux.
### Core middlewares
----------------------------------------------------------------------------------------------------
| chi/middleware Handler | description |
| :--------------------- | :---------------------------------------------------------------------- |
| [AllowContentEncoding] | Enforces a whitelist of request Content-Encoding headers |
| [AllowContentType] | Explicit whitelist of accepted request Content-Types |
| [BasicAuth] | Basic HTTP authentication |
| [Compress] | Gzip compression for clients that accept compressed responses |
| [ContentCharset] | Ensure charset for Content-Type request headers |
| [CleanPath] | Clean double slashes from request path |
| [GetHead] | Automatically route undefined HEAD requests to GET handlers |
| [Heartbeat] | Monitoring endpoint to check the servers pulse |
| [Logger] | Logs the start and end of each request with the elapsed processing time |
| [NoCache] | Sets response headers to prevent clients from caching |
| [Profiler] | Easily attach net/http/pprof to your routers |
| [RealIP] | Sets a http.Request's RemoteAddr to either X-Real-IP or X-Forwarded-For |
| [Recoverer] | Gracefully absorb panics and prints the stack trace |
| [RequestID] | Injects a request ID into the context of each request |
| [RedirectSlashes] | Redirect slashes on routing paths |
| [RouteHeaders] | Route handling for request headers |
| [SetHeader] | Short-hand middleware to set a response header key/value |
| [StripSlashes] | Strip slashes on routing paths |
| [Throttle] | Puts a ceiling on the number of concurrent requests |
| [Timeout] | Signals to the request context when the timeout deadline is reached |
| [URLFormat] | Parse extension from url and put it on request context |
| [WithValue] | Short-hand middleware to set a key/value on the request context |
----------------------------------------------------------------------------------------------------
[AllowContentEncoding]: https://pkg.go.dev/github.com/go-chi/chi/middleware#AllowContentEncoding
[AllowContentType]: https://pkg.go.dev/github.com/go-chi/chi/middleware#AllowContentType
[BasicAuth]: https://pkg.go.dev/github.com/go-chi/chi/middleware#BasicAuth
[Compress]: https://pkg.go.dev/github.com/go-chi/chi/middleware#Compress
[ContentCharset]: https://pkg.go.dev/github.com/go-chi/chi/middleware#ContentCharset
[CleanPath]: https://pkg.go.dev/github.com/go-chi/chi/middleware#CleanPath
[GetHead]: https://pkg.go.dev/github.com/go-chi/chi/middleware#GetHead
[GetReqID]: https://pkg.go.dev/github.com/go-chi/chi/middleware#GetReqID
[Heartbeat]: https://pkg.go.dev/github.com/go-chi/chi/middleware#Heartbeat
[Logger]: https://pkg.go.dev/github.com/go-chi/chi/middleware#Logger
[NoCache]: https://pkg.go.dev/github.com/go-chi/chi/middleware#NoCache
[Profiler]: https://pkg.go.dev/github.com/go-chi/chi/middleware#Profiler
[RealIP]: https://pkg.go.dev/github.com/go-chi/chi/middleware#RealIP
[Recoverer]: https://pkg.go.dev/github.com/go-chi/chi/middleware#Recoverer
[RedirectSlashes]: https://pkg.go.dev/github.com/go-chi/chi/middleware#RedirectSlashes
[RequestLogger]: https://pkg.go.dev/github.com/go-chi/chi/middleware#RequestLogger
[RequestID]: https://pkg.go.dev/github.com/go-chi/chi/middleware#RequestID
[RouteHeaders]: https://pkg.go.dev/github.com/go-chi/chi/middleware#RouteHeaders
[SetHeader]: https://pkg.go.dev/github.com/go-chi/chi/middleware#SetHeader
[StripSlashes]: https://pkg.go.dev/github.com/go-chi/chi/middleware#StripSlashes
[Throttle]: https://pkg.go.dev/github.com/go-chi/chi/middleware#Throttle
[ThrottleBacklog]: https://pkg.go.dev/github.com/go-chi/chi/middleware#ThrottleBacklog
[ThrottleWithOpts]: https://pkg.go.dev/github.com/go-chi/chi/middleware#ThrottleWithOpts
[Timeout]: https://pkg.go.dev/github.com/go-chi/chi/middleware#Timeout
[URLFormat]: https://pkg.go.dev/github.com/go-chi/chi/middleware#URLFormat
[WithLogEntry]: https://pkg.go.dev/github.com/go-chi/chi/middleware#WithLogEntry
[WithValue]: https://pkg.go.dev/github.com/go-chi/chi/middleware#WithValue
[Compressor]: https://pkg.go.dev/github.com/go-chi/chi/middleware#Compressor
[DefaultLogFormatter]: https://pkg.go.dev/github.com/go-chi/chi/middleware#DefaultLogFormatter
[EncoderFunc]: https://pkg.go.dev/github.com/go-chi/chi/middleware#EncoderFunc
[HeaderRoute]: https://pkg.go.dev/github.com/go-chi/chi/middleware#HeaderRoute
[HeaderRouter]: https://pkg.go.dev/github.com/go-chi/chi/middleware#HeaderRouter
[LogEntry]: https://pkg.go.dev/github.com/go-chi/chi/middleware#LogEntry
[LogFormatter]: https://pkg.go.dev/github.com/go-chi/chi/middleware#LogFormatter
[LoggerInterface]: https://pkg.go.dev/github.com/go-chi/chi/middleware#LoggerInterface
[ThrottleOpts]: https://pkg.go.dev/github.com/go-chi/chi/middleware#ThrottleOpts
[WrapResponseWriter]: https://pkg.go.dev/github.com/go-chi/chi/middleware#WrapResponseWriter
### Extra middlewares & packages
Please see https://github.com/go-chi for additional packages.
--------------------------------------------------------------------------------------------------------------------
| package | description |
|:---------------------------------------------------|:-------------------------------------------------------------
| [cors](https://github.com/go-chi/cors) | Cross-origin resource sharing (CORS) |
| [docgen](https://github.com/go-chi/docgen) | Print chi.Router routes at runtime |
| [jwtauth](https://github.com/go-chi/jwtauth) | JWT authentication |
| [hostrouter](https://github.com/go-chi/hostrouter) | Domain/host based request routing |
| [httplog](https://github.com/go-chi/httplog) | Small but powerful structured HTTP request logging |
| [httprate](https://github.com/go-chi/httprate) | HTTP request rate limiter |
| [httptracer](https://github.com/go-chi/httptracer) | HTTP request performance tracing library |
| [httpvcr](https://github.com/go-chi/httpvcr) | Write deterministic tests for external sources |
| [stampede](https://github.com/go-chi/stampede) | HTTP request coalescer |
--------------------------------------------------------------------------------------------------------------------
## context?
`context` is a tiny pkg that provides simple interface to signal context across call stacks
and goroutines. It was originally written by [Sameer Ajmani](https://github.com/Sajmani)
and is available in stdlib since go1.7.
Learn more at https://blog.golang.org/context
and..
* Docs: https://golang.org/pkg/context
* Source: https://github.com/golang/go/tree/master/src/context
## Benchmarks
The benchmark suite: https://github.com/pkieltyka/go-http-routing-benchmark
Results as of Nov 29, 2020 with Go 1.15.5 on Linux AMD 3950x
```shell
BenchmarkChi_Param 3075895 384 ns/op 400 B/op 2 allocs/op
BenchmarkChi_Param5 2116603 566 ns/op 400 B/op 2 allocs/op
BenchmarkChi_Param20 964117 1227 ns/op 400 B/op 2 allocs/op
BenchmarkChi_ParamWrite 2863413 420 ns/op 400 B/op 2 allocs/op
BenchmarkChi_GithubStatic 3045488 395 ns/op 400 B/op 2 allocs/op
BenchmarkChi_GithubParam 2204115 540 ns/op 400 B/op 2 allocs/op
BenchmarkChi_GithubAll 10000 113811 ns/op 81203 B/op 406 allocs/op
BenchmarkChi_GPlusStatic 3337485 359 ns/op 400 B/op 2 allocs/op
BenchmarkChi_GPlusParam 2825853 423 ns/op 400 B/op 2 allocs/op
BenchmarkChi_GPlus2Params 2471697 483 ns/op 400 B/op 2 allocs/op
BenchmarkChi_GPlusAll 194220 5950 ns/op 5200 B/op 26 allocs/op
BenchmarkChi_ParseStatic 3365324 356 ns/op 400 B/op 2 allocs/op
BenchmarkChi_ParseParam 2976614 404 ns/op 400 B/op 2 allocs/op
BenchmarkChi_Parse2Params 2638084 439 ns/op 400 B/op 2 allocs/op
BenchmarkChi_ParseAll 109567 11295 ns/op 10400 B/op 52 allocs/op
BenchmarkChi_StaticAll 16846 71308 ns/op 62802 B/op 314 allocs/op
```
Comparison with other routers: https://gist.github.com/pkieltyka/123032f12052520aaccab752bd3e78cc
NOTE: the allocs in the benchmark above are from the calls to http.Request's
`WithContext(context.Context)` method that clones the http.Request, sets the `Context()`
on the duplicated (alloc'd) request and returns it the new request object. This is just
how setting context on a request in Go works.
## Credits
* Carl Jackson for https://github.com/zenazn/goji
* Parts of chi's thinking comes from goji, and chi's middleware package
sources from goji.
* Armon Dadgar for https://github.com/armon/go-radix
* Contributions: [@VojtechVitek](https://github.com/VojtechVitek)
We'll be more than happy to see [your contributions](./CONTRIBUTING.md)!
## Beyond REST
chi is just a http router that lets you decompose request handling into many smaller layers.
Many companies use chi to write REST services for their public APIs. But, REST is just a convention
for managing state via HTTP, and there's a lot of other pieces required to write a complete client-server
system or network of microservices.
Looking beyond REST, I also recommend some newer works in the field:
* [webrpc](https://github.com/webrpc/webrpc) - Web-focused RPC client+server framework with code-gen
* [gRPC](https://github.com/grpc/grpc-go) - Google's RPC framework via protobufs
* [graphql](https://github.com/99designs/gqlgen) - Declarative query language
* [NATS](https://nats.io) - lightweight pub-sub
## License
Copyright (c) 2015-present [Peter Kieltyka](https://github.com/pkieltyka)
Licensed under [MIT License](./LICENSE)
[GoDoc]: https://pkg.go.dev/github.com/go-chi/chi?tab=versions
[GoDoc Widget]: https://godoc.org/github.com/go-chi/chi?status.svg
[Travis]: https://travis-ci.org/go-chi/chi
[Travis Widget]: https://travis-ci.org/go-chi/chi.svg?branch=master

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package chi
import "net/http"
// Chain returns a Middlewares type from a slice of middleware handlers.
func Chain(middlewares ...func(http.Handler) http.Handler) Middlewares {
return Middlewares(middlewares)
}
// Handler builds and returns a http.Handler from the chain of middlewares,
// with `h http.Handler` as the final handler.
func (mws Middlewares) Handler(h http.Handler) http.Handler {
return &ChainHandler{h, chain(mws, h), mws}
}
// HandlerFunc builds and returns a http.Handler from the chain of middlewares,
// with `h http.Handler` as the final handler.
func (mws Middlewares) HandlerFunc(h http.HandlerFunc) http.Handler {
return &ChainHandler{h, chain(mws, h), mws}
}
// ChainHandler is a http.Handler with support for handler composition and
// execution.
type ChainHandler struct {
Endpoint http.Handler
chain http.Handler
Middlewares Middlewares
}
func (c *ChainHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) {
c.chain.ServeHTTP(w, r)
}
// chain builds a http.Handler composed of an inline middleware stack and endpoint
// handler in the order they are passed.
func chain(middlewares []func(http.Handler) http.Handler, endpoint http.Handler) http.Handler {
// Return ahead of time if there aren't any middlewares for the chain
if len(middlewares) == 0 {
return endpoint
}
// Wrap the end handler with the middleware chain
h := middlewares[len(middlewares)-1](endpoint)
for i := len(middlewares) - 2; i >= 0; i-- {
h = middlewares[i](h)
}
return h
}

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// Package chi is a small, idiomatic and composable router for building HTTP services.
//
// chi requires Go 1.14 or newer.
//
// Example:
//
// package main
//
// import (
// "net/http"
//
// "github.com/go-chi/chi/v5"
// "github.com/go-chi/chi/v5/middleware"
// )
//
// func main() {
// r := chi.NewRouter()
// r.Use(middleware.Logger)
// r.Use(middleware.Recoverer)
//
// r.Get("/", func(w http.ResponseWriter, r *http.Request) {
// w.Write([]byte("root."))
// })
//
// http.ListenAndServe(":3333", r)
// }
//
// See github.com/go-chi/chi/_examples/ for more in-depth examples.
//
// URL patterns allow for easy matching of path components in HTTP
// requests. The matching components can then be accessed using
// chi.URLParam(). All patterns must begin with a slash.
//
// A simple named placeholder {name} matches any sequence of characters
// up to the next / or the end of the URL. Trailing slashes on paths must
// be handled explicitly.
//
// A placeholder with a name followed by a colon allows a regular
// expression match, for example {number:\\d+}. The regular expression
// syntax is Go's normal regexp RE2 syntax, except that regular expressions
// including { or } are not supported, and / will never be
// matched. An anonymous regexp pattern is allowed, using an empty string
// before the colon in the placeholder, such as {:\\d+}
//
// The special placeholder of asterisk matches the rest of the requested
// URL. Any trailing characters in the pattern are ignored. This is the only
// placeholder which will match / characters.
//
// Examples:
//
// "/user/{name}" matches "/user/jsmith" but not "/user/jsmith/info" or "/user/jsmith/"
// "/user/{name}/info" matches "/user/jsmith/info"
// "/page/*" matches "/page/intro/latest"
// "/page/{other}/index" also matches "/page/intro/latest"
// "/date/{yyyy:\\d\\d\\d\\d}/{mm:\\d\\d}/{dd:\\d\\d}" matches "/date/2017/04/01"
package chi
import "net/http"
// NewRouter returns a new Mux object that implements the Router interface.
func NewRouter() *Mux {
return NewMux()
}
// Router consisting of the core routing methods used by chi's Mux,
// using only the standard net/http.
type Router interface {
http.Handler
Routes
// Use appends one or more middlewares onto the Router stack.
Use(middlewares ...func(http.Handler) http.Handler)
// With adds inline middlewares for an endpoint handler.
With(middlewares ...func(http.Handler) http.Handler) Router
// Group adds a new inline-Router along the current routing
// path, with a fresh middleware stack for the inline-Router.
Group(fn func(r Router)) Router
// Route mounts a sub-Router along a `pattern`` string.
Route(pattern string, fn func(r Router)) Router
// Mount attaches another http.Handler along ./pattern/*
Mount(pattern string, h http.Handler)
// Handle and HandleFunc adds routes for `pattern` that matches
// all HTTP methods.
Handle(pattern string, h http.Handler)
HandleFunc(pattern string, h http.HandlerFunc)
// Method and MethodFunc adds routes for `pattern` that matches
// the `method` HTTP method.
Method(method, pattern string, h http.Handler)
MethodFunc(method, pattern string, h http.HandlerFunc)
// HTTP-method routing along `pattern`
Connect(pattern string, h http.HandlerFunc)
Delete(pattern string, h http.HandlerFunc)
Get(pattern string, h http.HandlerFunc)
Head(pattern string, h http.HandlerFunc)
Options(pattern string, h http.HandlerFunc)
Patch(pattern string, h http.HandlerFunc)
Post(pattern string, h http.HandlerFunc)
Put(pattern string, h http.HandlerFunc)
Trace(pattern string, h http.HandlerFunc)
// NotFound defines a handler to respond whenever a route could
// not be found.
NotFound(h http.HandlerFunc)
// MethodNotAllowed defines a handler to respond whenever a method is
// not allowed.
MethodNotAllowed(h http.HandlerFunc)
}
// Routes interface adds two methods for router traversal, which is also
// used by the `docgen` subpackage to generation documentation for Routers.
type Routes interface {
// Routes returns the routing tree in an easily traversable structure.
Routes() []Route
// Middlewares returns the list of middlewares in use by the router.
Middlewares() Middlewares
// Match searches the routing tree for a handler that matches
// the method/path - similar to routing a http request, but without
// executing the handler thereafter.
Match(rctx *Context, method, path string) bool
}
// Middlewares type is a slice of standard middleware handlers with methods
// to compose middleware chains and http.Handler's.
type Middlewares []func(http.Handler) http.Handler

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package chi
import (
"context"
"net/http"
"strings"
)
// URLParam returns the url parameter from a http.Request object.
func URLParam(r *http.Request, key string) string {
if rctx := RouteContext(r.Context()); rctx != nil {
return rctx.URLParam(key)
}
return ""
}
// URLParamFromCtx returns the url parameter from a http.Request Context.
func URLParamFromCtx(ctx context.Context, key string) string {
if rctx := RouteContext(ctx); rctx != nil {
return rctx.URLParam(key)
}
return ""
}
// RouteContext returns chi's routing Context object from a
// http.Request Context.
func RouteContext(ctx context.Context) *Context {
val, _ := ctx.Value(RouteCtxKey).(*Context)
return val
}
// NewRouteContext returns a new routing Context object.
func NewRouteContext() *Context {
return &Context{}
}
var (
// RouteCtxKey is the context.Context key to store the request context.
RouteCtxKey = &contextKey{"RouteContext"}
)
// Context is the default routing context set on the root node of a
// request context to track route patterns, URL parameters and
// an optional routing path.
type Context struct {
Routes Routes
// parentCtx is the parent of this one, for using Context as a
// context.Context directly. This is an optimization that saves
// 1 allocation.
parentCtx context.Context
// Routing path/method override used during the route search.
// See Mux#routeHTTP method.
RoutePath string
RouteMethod string
// URLParams are the stack of routeParams captured during the
// routing lifecycle across a stack of sub-routers.
URLParams RouteParams
// Route parameters matched for the current sub-router. It is
// intentionally unexported so it cant be tampered.
routeParams RouteParams
// The endpoint routing pattern that matched the request URI path
// or `RoutePath` of the current sub-router. This value will update
// during the lifecycle of a request passing through a stack of
// sub-routers.
routePattern string
// Routing pattern stack throughout the lifecycle of the request,
// across all connected routers. It is a record of all matching
// patterns across a stack of sub-routers.
RoutePatterns []string
// methodNotAllowed hint
methodNotAllowed bool
}
// Reset a routing context to its initial state.
func (x *Context) Reset() {
x.Routes = nil
x.RoutePath = ""
x.RouteMethod = ""
x.RoutePatterns = x.RoutePatterns[:0]
x.URLParams.Keys = x.URLParams.Keys[:0]
x.URLParams.Values = x.URLParams.Values[:0]
x.routePattern = ""
x.routeParams.Keys = x.routeParams.Keys[:0]
x.routeParams.Values = x.routeParams.Values[:0]
x.methodNotAllowed = false
x.parentCtx = nil
}
// URLParam returns the corresponding URL parameter value from the request
// routing context.
func (x *Context) URLParam(key string) string {
for k := len(x.URLParams.Keys) - 1; k >= 0; k-- {
if x.URLParams.Keys[k] == key {
return x.URLParams.Values[k]
}
}
return ""
}
// RoutePattern builds the routing pattern string for the particular
// request, at the particular point during routing. This means, the value
// will change throughout the execution of a request in a router. That is
// why its advised to only use this value after calling the next handler.
//
// For example,
//
// func Instrument(next http.Handler) http.Handler {
// return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
// next.ServeHTTP(w, r)
// routePattern := chi.RouteContext(r.Context()).RoutePattern()
// measure(w, r, routePattern)
// })
// }
func (x *Context) RoutePattern() string {
routePattern := strings.Join(x.RoutePatterns, "")
routePattern = replaceWildcards(routePattern)
routePattern = strings.TrimSuffix(routePattern, "//")
routePattern = strings.TrimSuffix(routePattern, "/")
return routePattern
}
// replaceWildcards takes a route pattern and recursively replaces all
// occurrences of "/*/" to "/".
func replaceWildcards(p string) string {
if strings.Contains(p, "/*/") {
return replaceWildcards(strings.Replace(p, "/*/", "/", -1))
}
return p
}
// RouteParams is a structure to track URL routing parameters efficiently.
type RouteParams struct {
Keys, Values []string
}
// Add will append a URL parameter to the end of the route param
func (s *RouteParams) Add(key, value string) {
s.Keys = append(s.Keys, key)
s.Values = append(s.Values, value)
}
// contextKey is a value for use with context.WithValue. It's used as
// a pointer so it fits in an interface{} without allocation. This technique
// for defining context keys was copied from Go 1.7's new use of context in net/http.
type contextKey struct {
name string
}
func (k *contextKey) String() string {
return "chi context value " + k.name
}

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package chi
import (
"context"
"fmt"
"net/http"
"strings"
"sync"
)
var _ Router = &Mux{}
// Mux is a simple HTTP route multiplexer that parses a request path,
// records any URL params, and executes an end handler. It implements
// the http.Handler interface and is friendly with the standard library.
//
// Mux is designed to be fast, minimal and offer a powerful API for building
// modular and composable HTTP services with a large set of handlers. It's
// particularly useful for writing large REST API services that break a handler
// into many smaller parts composed of middlewares and end handlers.
type Mux struct {
// The computed mux handler made of the chained middleware stack and
// the tree router
handler http.Handler
// The radix trie router
tree *node
// Custom method not allowed handler
methodNotAllowedHandler http.HandlerFunc
// A reference to the parent mux used by subrouters when mounting
// to a parent mux
parent *Mux
// Routing context pool
pool *sync.Pool
// Custom route not found handler
notFoundHandler http.HandlerFunc
// The middleware stack
middlewares []func(http.Handler) http.Handler
// Controls the behaviour of middleware chain generation when a mux
// is registered as an inline group inside another mux.
inline bool
}
// NewMux returns a newly initialized Mux object that implements the Router
// interface.
func NewMux() *Mux {
mux := &Mux{tree: &node{}, pool: &sync.Pool{}}
mux.pool.New = func() interface{} {
return NewRouteContext()
}
return mux
}
// ServeHTTP is the single method of the http.Handler interface that makes
// Mux interoperable with the standard library. It uses a sync.Pool to get and
// reuse routing contexts for each request.
func (mx *Mux) ServeHTTP(w http.ResponseWriter, r *http.Request) {
// Ensure the mux has some routes defined on the mux
if mx.handler == nil {
mx.NotFoundHandler().ServeHTTP(w, r)
return
}
// Check if a routing context already exists from a parent router.
rctx, _ := r.Context().Value(RouteCtxKey).(*Context)
if rctx != nil {
mx.handler.ServeHTTP(w, r)
return
}
// Fetch a RouteContext object from the sync pool, and call the computed
// mx.handler that is comprised of mx.middlewares + mx.routeHTTP.
// Once the request is finished, reset the routing context and put it back
// into the pool for reuse from another request.
rctx = mx.pool.Get().(*Context)
rctx.Reset()
rctx.Routes = mx
rctx.parentCtx = r.Context()
// NOTE: r.WithContext() causes 2 allocations and context.WithValue() causes 1 allocation
r = r.WithContext(context.WithValue(r.Context(), RouteCtxKey, rctx))
// Serve the request and once its done, put the request context back in the sync pool
mx.handler.ServeHTTP(w, r)
mx.pool.Put(rctx)
}
// Use appends a middleware handler to the Mux middleware stack.
//
// The middleware stack for any Mux will execute before searching for a matching
// route to a specific handler, which provides opportunity to respond early,
// change the course of the request execution, or set request-scoped values for
// the next http.Handler.
func (mx *Mux) Use(middlewares ...func(http.Handler) http.Handler) {
if mx.handler != nil {
panic("chi: all middlewares must be defined before routes on a mux")
}
mx.middlewares = append(mx.middlewares, middlewares...)
}
// Handle adds the route `pattern` that matches any http method to
// execute the `handler` http.Handler.
func (mx *Mux) Handle(pattern string, handler http.Handler) {
mx.handle(mALL, pattern, handler)
}
// HandleFunc adds the route `pattern` that matches any http method to
// execute the `handlerFn` http.HandlerFunc.
func (mx *Mux) HandleFunc(pattern string, handlerFn http.HandlerFunc) {
mx.handle(mALL, pattern, handlerFn)
}
// Method adds the route `pattern` that matches `method` http method to
// execute the `handler` http.Handler.
func (mx *Mux) Method(method, pattern string, handler http.Handler) {
m, ok := methodMap[strings.ToUpper(method)]
if !ok {
panic(fmt.Sprintf("chi: '%s' http method is not supported.", method))
}
mx.handle(m, pattern, handler)
}
// MethodFunc adds the route `pattern` that matches `method` http method to
// execute the `handlerFn` http.HandlerFunc.
func (mx *Mux) MethodFunc(method, pattern string, handlerFn http.HandlerFunc) {
mx.Method(method, pattern, handlerFn)
}
// Connect adds the route `pattern` that matches a CONNECT http method to
// execute the `handlerFn` http.HandlerFunc.
func (mx *Mux) Connect(pattern string, handlerFn http.HandlerFunc) {
mx.handle(mCONNECT, pattern, handlerFn)
}
// Delete adds the route `pattern` that matches a DELETE http method to
// execute the `handlerFn` http.HandlerFunc.
func (mx *Mux) Delete(pattern string, handlerFn http.HandlerFunc) {
mx.handle(mDELETE, pattern, handlerFn)
}
// Get adds the route `pattern` that matches a GET http method to
// execute the `handlerFn` http.HandlerFunc.
func (mx *Mux) Get(pattern string, handlerFn http.HandlerFunc) {
mx.handle(mGET, pattern, handlerFn)
}
// Head adds the route `pattern` that matches a HEAD http method to
// execute the `handlerFn` http.HandlerFunc.
func (mx *Mux) Head(pattern string, handlerFn http.HandlerFunc) {
mx.handle(mHEAD, pattern, handlerFn)
}
// Options adds the route `pattern` that matches a OPTIONS http method to
// execute the `handlerFn` http.HandlerFunc.
func (mx *Mux) Options(pattern string, handlerFn http.HandlerFunc) {
mx.handle(mOPTIONS, pattern, handlerFn)
}
// Patch adds the route `pattern` that matches a PATCH http method to
// execute the `handlerFn` http.HandlerFunc.
func (mx *Mux) Patch(pattern string, handlerFn http.HandlerFunc) {
mx.handle(mPATCH, pattern, handlerFn)
}
// Post adds the route `pattern` that matches a POST http method to
// execute the `handlerFn` http.HandlerFunc.
func (mx *Mux) Post(pattern string, handlerFn http.HandlerFunc) {
mx.handle(mPOST, pattern, handlerFn)
}
// Put adds the route `pattern` that matches a PUT http method to
// execute the `handlerFn` http.HandlerFunc.
func (mx *Mux) Put(pattern string, handlerFn http.HandlerFunc) {
mx.handle(mPUT, pattern, handlerFn)
}
// Trace adds the route `pattern` that matches a TRACE http method to
// execute the `handlerFn` http.HandlerFunc.
func (mx *Mux) Trace(pattern string, handlerFn http.HandlerFunc) {
mx.handle(mTRACE, pattern, handlerFn)
}
// NotFound sets a custom http.HandlerFunc for routing paths that could
// not be found. The default 404 handler is `http.NotFound`.
func (mx *Mux) NotFound(handlerFn http.HandlerFunc) {
// Build NotFound handler chain
m := mx
hFn := handlerFn
if mx.inline && mx.parent != nil {
m = mx.parent
hFn = Chain(mx.middlewares...).HandlerFunc(hFn).ServeHTTP
}
// Update the notFoundHandler from this point forward
m.notFoundHandler = hFn
m.updateSubRoutes(func(subMux *Mux) {
if subMux.notFoundHandler == nil {
subMux.NotFound(hFn)
}
})
}
// MethodNotAllowed sets a custom http.HandlerFunc for routing paths where the
// method is unresolved. The default handler returns a 405 with an empty body.
func (mx *Mux) MethodNotAllowed(handlerFn http.HandlerFunc) {
// Build MethodNotAllowed handler chain
m := mx
hFn := handlerFn
if mx.inline && mx.parent != nil {
m = mx.parent
hFn = Chain(mx.middlewares...).HandlerFunc(hFn).ServeHTTP
}
// Update the methodNotAllowedHandler from this point forward
m.methodNotAllowedHandler = hFn
m.updateSubRoutes(func(subMux *Mux) {
if subMux.methodNotAllowedHandler == nil {
subMux.MethodNotAllowed(hFn)
}
})
}
// With adds inline middlewares for an endpoint handler.
func (mx *Mux) With(middlewares ...func(http.Handler) http.Handler) Router {
// Similarly as in handle(), we must build the mux handler once additional
// middleware registration isn't allowed for this stack, like now.
if !mx.inline && mx.handler == nil {
mx.updateRouteHandler()
}
// Copy middlewares from parent inline muxs
var mws Middlewares
if mx.inline {
mws = make(Middlewares, len(mx.middlewares))
copy(mws, mx.middlewares)
}
mws = append(mws, middlewares...)
im := &Mux{
pool: mx.pool, inline: true, parent: mx, tree: mx.tree, middlewares: mws,
notFoundHandler: mx.notFoundHandler, methodNotAllowedHandler: mx.methodNotAllowedHandler,
}
return im
}
// Group creates a new inline-Mux with a fresh middleware stack. It's useful
// for a group of handlers along the same routing path that use an additional
// set of middlewares. See _examples/.
func (mx *Mux) Group(fn func(r Router)) Router {
im := mx.With().(*Mux)
if fn != nil {
fn(im)
}
return im
}
// Route creates a new Mux with a fresh middleware stack and mounts it
// along the `pattern` as a subrouter. Effectively, this is a short-hand
// call to Mount. See _examples/.
func (mx *Mux) Route(pattern string, fn func(r Router)) Router {
if fn == nil {
panic(fmt.Sprintf("chi: attempting to Route() a nil subrouter on '%s'", pattern))
}
subRouter := NewRouter()
fn(subRouter)
mx.Mount(pattern, subRouter)
return subRouter
}
// Mount attaches another http.Handler or chi Router as a subrouter along a routing
// path. It's very useful to split up a large API as many independent routers and
// compose them as a single service using Mount. See _examples/.
//
// Note that Mount() simply sets a wildcard along the `pattern` that will continue
// routing at the `handler`, which in most cases is another chi.Router. As a result,
// if you define two Mount() routes on the exact same pattern the mount will panic.
func (mx *Mux) Mount(pattern string, handler http.Handler) {
if handler == nil {
panic(fmt.Sprintf("chi: attempting to Mount() a nil handler on '%s'", pattern))
}
// Provide runtime safety for ensuring a pattern isn't mounted on an existing
// routing pattern.
if mx.tree.findPattern(pattern+"*") || mx.tree.findPattern(pattern+"/*") {
panic(fmt.Sprintf("chi: attempting to Mount() a handler on an existing path, '%s'", pattern))
}
// Assign sub-Router's with the parent not found & method not allowed handler if not specified.
subr, ok := handler.(*Mux)
if ok && subr.notFoundHandler == nil && mx.notFoundHandler != nil {
subr.NotFound(mx.notFoundHandler)
}
if ok && subr.methodNotAllowedHandler == nil && mx.methodNotAllowedHandler != nil {
subr.MethodNotAllowed(mx.methodNotAllowedHandler)
}
mountHandler := http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
rctx := RouteContext(r.Context())
// shift the url path past the previous subrouter
rctx.RoutePath = mx.nextRoutePath(rctx)
// reset the wildcard URLParam which connects the subrouter
n := len(rctx.URLParams.Keys) - 1
if n >= 0 && rctx.URLParams.Keys[n] == "*" && len(rctx.URLParams.Values) > n {
rctx.URLParams.Values[n] = ""
}
handler.ServeHTTP(w, r)
})
if pattern == "" || pattern[len(pattern)-1] != '/' {
mx.handle(mALL|mSTUB, pattern, mountHandler)
mx.handle(mALL|mSTUB, pattern+"/", mountHandler)
pattern += "/"
}
method := mALL
subroutes, _ := handler.(Routes)
if subroutes != nil {
method |= mSTUB
}
n := mx.handle(method, pattern+"*", mountHandler)
if subroutes != nil {
n.subroutes = subroutes
}
}
// Routes returns a slice of routing information from the tree,
// useful for traversing available routes of a router.
func (mx *Mux) Routes() []Route {
return mx.tree.routes()
}
// Middlewares returns a slice of middleware handler functions.
func (mx *Mux) Middlewares() Middlewares {
return mx.middlewares
}
// Match searches the routing tree for a handler that matches the method/path.
// It's similar to routing a http request, but without executing the handler
// thereafter.
//
// Note: the *Context state is updated during execution, so manage
// the state carefully or make a NewRouteContext().
func (mx *Mux) Match(rctx *Context, method, path string) bool {
m, ok := methodMap[method]
if !ok {
return false
}
node, _, h := mx.tree.FindRoute(rctx, m, path)
if node != nil && node.subroutes != nil {
rctx.RoutePath = mx.nextRoutePath(rctx)
return node.subroutes.Match(rctx, method, rctx.RoutePath)
}
return h != nil
}
// NotFoundHandler returns the default Mux 404 responder whenever a route
// cannot be found.
func (mx *Mux) NotFoundHandler() http.HandlerFunc {
if mx.notFoundHandler != nil {
return mx.notFoundHandler
}
return http.NotFound
}
// MethodNotAllowedHandler returns the default Mux 405 responder whenever
// a method cannot be resolved for a route.
func (mx *Mux) MethodNotAllowedHandler() http.HandlerFunc {
if mx.methodNotAllowedHandler != nil {
return mx.methodNotAllowedHandler
}
return methodNotAllowedHandler
}
// handle registers a http.Handler in the routing tree for a particular http method
// and routing pattern.
func (mx *Mux) handle(method methodTyp, pattern string, handler http.Handler) *node {
if len(pattern) == 0 || pattern[0] != '/' {
panic(fmt.Sprintf("chi: routing pattern must begin with '/' in '%s'", pattern))
}
// Build the computed routing handler for this routing pattern.
if !mx.inline && mx.handler == nil {
mx.updateRouteHandler()
}
// Build endpoint handler with inline middlewares for the route
var h http.Handler
if mx.inline {
mx.handler = http.HandlerFunc(mx.routeHTTP)
h = Chain(mx.middlewares...).Handler(handler)
} else {
h = handler
}
// Add the endpoint to the tree and return the node
return mx.tree.InsertRoute(method, pattern, h)
}
// routeHTTP routes a http.Request through the Mux routing tree to serve
// the matching handler for a particular http method.
func (mx *Mux) routeHTTP(w http.ResponseWriter, r *http.Request) {
// Grab the route context object
rctx := r.Context().Value(RouteCtxKey).(*Context)
// The request routing path
routePath := rctx.RoutePath
if routePath == "" {
if r.URL.RawPath != "" {
routePath = r.URL.RawPath
} else {
routePath = r.URL.Path
}
if routePath == "" {
routePath = "/"
}
}
// Check if method is supported by chi
if rctx.RouteMethod == "" {
rctx.RouteMethod = r.Method
}
method, ok := methodMap[rctx.RouteMethod]
if !ok {
mx.MethodNotAllowedHandler().ServeHTTP(w, r)
return
}
// Find the route
if _, _, h := mx.tree.FindRoute(rctx, method, routePath); h != nil {
h.ServeHTTP(w, r)
return
}
if rctx.methodNotAllowed {
mx.MethodNotAllowedHandler().ServeHTTP(w, r)
} else {
mx.NotFoundHandler().ServeHTTP(w, r)
}
}
func (mx *Mux) nextRoutePath(rctx *Context) string {
routePath := "/"
nx := len(rctx.routeParams.Keys) - 1 // index of last param in list
if nx >= 0 && rctx.routeParams.Keys[nx] == "*" && len(rctx.routeParams.Values) > nx {
routePath = "/" + rctx.routeParams.Values[nx]
}
return routePath
}
// Recursively update data on child routers.
func (mx *Mux) updateSubRoutes(fn func(subMux *Mux)) {
for _, r := range mx.tree.routes() {
subMux, ok := r.SubRoutes.(*Mux)
if !ok {
continue
}
fn(subMux)
}
}
// updateRouteHandler builds the single mux handler that is a chain of the middleware
// stack, as defined by calls to Use(), and the tree router (Mux) itself. After this
// point, no other middlewares can be registered on this Mux's stack. But you can still
// compose additional middlewares via Group()'s or using a chained middleware handler.
func (mx *Mux) updateRouteHandler() {
mx.handler = chain(mx.middlewares, http.HandlerFunc(mx.routeHTTP))
}
// methodNotAllowedHandler is a helper function to respond with a 405,
// method not allowed.
func methodNotAllowedHandler(w http.ResponseWriter, r *http.Request) {
w.WriteHeader(405)
w.Write(nil)
}

866
vendor/github.com/go-chi/chi/v5/tree.go generated vendored Normal file
View File

@ -0,0 +1,866 @@
package chi
// Radix tree implementation below is a based on the original work by
// Armon Dadgar in https://github.com/armon/go-radix/blob/master/radix.go
// (MIT licensed). It's been heavily modified for use as a HTTP routing tree.
import (
"fmt"
"net/http"
"regexp"
"sort"
"strconv"
"strings"
)
type methodTyp uint
const (
mSTUB methodTyp = 1 << iota
mCONNECT
mDELETE
mGET
mHEAD
mOPTIONS
mPATCH
mPOST
mPUT
mTRACE
)
var mALL = mCONNECT | mDELETE | mGET | mHEAD |
mOPTIONS | mPATCH | mPOST | mPUT | mTRACE
var methodMap = map[string]methodTyp{
http.MethodConnect: mCONNECT,
http.MethodDelete: mDELETE,
http.MethodGet: mGET,
http.MethodHead: mHEAD,
http.MethodOptions: mOPTIONS,
http.MethodPatch: mPATCH,
http.MethodPost: mPOST,
http.MethodPut: mPUT,
http.MethodTrace: mTRACE,
}
// RegisterMethod adds support for custom HTTP method handlers, available
// via Router#Method and Router#MethodFunc
func RegisterMethod(method string) {
if method == "" {
return
}
method = strings.ToUpper(method)
if _, ok := methodMap[method]; ok {
return
}
n := len(methodMap)
if n > strconv.IntSize-2 {
panic(fmt.Sprintf("chi: max number of methods reached (%d)", strconv.IntSize))
}
mt := methodTyp(2 << n)
methodMap[method] = mt
mALL |= mt
}
type nodeTyp uint8
const (
ntStatic nodeTyp = iota // /home
ntRegexp // /{id:[0-9]+}
ntParam // /{user}
ntCatchAll // /api/v1/*
)
type node struct {
// subroutes on the leaf node
subroutes Routes
// regexp matcher for regexp nodes
rex *regexp.Regexp
// HTTP handler endpoints on the leaf node
endpoints endpoints
// prefix is the common prefix we ignore
prefix string
// child nodes should be stored in-order for iteration,
// in groups of the node type.
children [ntCatchAll + 1]nodes
// first byte of the child prefix
tail byte
// node type: static, regexp, param, catchAll
typ nodeTyp
// first byte of the prefix
label byte
}
// endpoints is a mapping of http method constants to handlers
// for a given route.
type endpoints map[methodTyp]*endpoint
type endpoint struct {
// endpoint handler
handler http.Handler
// pattern is the routing pattern for handler nodes
pattern string
// parameter keys recorded on handler nodes
paramKeys []string
}
func (s endpoints) Value(method methodTyp) *endpoint {
mh, ok := s[method]
if !ok {
mh = &endpoint{}
s[method] = mh
}
return mh
}
func (n *node) InsertRoute(method methodTyp, pattern string, handler http.Handler) *node {
var parent *node
search := pattern
for {
// Handle key exhaustion
if len(search) == 0 {
// Insert or update the node's leaf handler
n.setEndpoint(method, handler, pattern)
return n
}
// We're going to be searching for a wild node next,
// in this case, we need to get the tail
var label = search[0]
var segTail byte
var segEndIdx int
var segTyp nodeTyp
var segRexpat string
if label == '{' || label == '*' {
segTyp, _, segRexpat, segTail, _, segEndIdx = patNextSegment(search)
}
var prefix string
if segTyp == ntRegexp {
prefix = segRexpat
}
// Look for the edge to attach to
parent = n
n = n.getEdge(segTyp, label, segTail, prefix)
// No edge, create one
if n == nil {
child := &node{label: label, tail: segTail, prefix: search}
hn := parent.addChild(child, search)
hn.setEndpoint(method, handler, pattern)
return hn
}
// Found an edge to match the pattern
if n.typ > ntStatic {
// We found a param node, trim the param from the search path and continue.
// This param/wild pattern segment would already be on the tree from a previous
// call to addChild when creating a new node.
search = search[segEndIdx:]
continue
}
// Static nodes fall below here.
// Determine longest prefix of the search key on match.
commonPrefix := longestPrefix(search, n.prefix)
if commonPrefix == len(n.prefix) {
// the common prefix is as long as the current node's prefix we're attempting to insert.
// keep the search going.
search = search[commonPrefix:]
continue
}
// Split the node
child := &node{
typ: ntStatic,
prefix: search[:commonPrefix],
}
parent.replaceChild(search[0], segTail, child)
// Restore the existing node
n.label = n.prefix[commonPrefix]
n.prefix = n.prefix[commonPrefix:]
child.addChild(n, n.prefix)
// If the new key is a subset, set the method/handler on this node and finish.
search = search[commonPrefix:]
if len(search) == 0 {
child.setEndpoint(method, handler, pattern)
return child
}
// Create a new edge for the node
subchild := &node{
typ: ntStatic,
label: search[0],
prefix: search,
}
hn := child.addChild(subchild, search)
hn.setEndpoint(method, handler, pattern)
return hn
}
}
// addChild appends the new `child` node to the tree using the `pattern` as the trie key.
// For a URL router like chi's, we split the static, param, regexp and wildcard segments
// into different nodes. In addition, addChild will recursively call itself until every
// pattern segment is added to the url pattern tree as individual nodes, depending on type.
func (n *node) addChild(child *node, prefix string) *node {
search := prefix
// handler leaf node added to the tree is the child.
// this may be overridden later down the flow
hn := child
// Parse next segment
segTyp, _, segRexpat, segTail, segStartIdx, segEndIdx := patNextSegment(search)
// Add child depending on next up segment
switch segTyp {
case ntStatic:
// Search prefix is all static (that is, has no params in path)
// noop
default:
// Search prefix contains a param, regexp or wildcard
if segTyp == ntRegexp {
rex, err := regexp.Compile(segRexpat)
if err != nil {
panic(fmt.Sprintf("chi: invalid regexp pattern '%s' in route param", segRexpat))
}
child.prefix = segRexpat
child.rex = rex
}
if segStartIdx == 0 {
// Route starts with a param
child.typ = segTyp
if segTyp == ntCatchAll {
segStartIdx = -1
} else {
segStartIdx = segEndIdx
}
if segStartIdx < 0 {
segStartIdx = len(search)
}
child.tail = segTail // for params, we set the tail
if segStartIdx != len(search) {
// add static edge for the remaining part, split the end.
// its not possible to have adjacent param nodes, so its certainly
// going to be a static node next.
search = search[segStartIdx:] // advance search position
nn := &node{
typ: ntStatic,
label: search[0],
prefix: search,
}
hn = child.addChild(nn, search)
}
} else if segStartIdx > 0 {
// Route has some param
// starts with a static segment
child.typ = ntStatic
child.prefix = search[:segStartIdx]
child.rex = nil
// add the param edge node
search = search[segStartIdx:]
nn := &node{
typ: segTyp,
label: search[0],
tail: segTail,
}
hn = child.addChild(nn, search)
}
}
n.children[child.typ] = append(n.children[child.typ], child)
n.children[child.typ].Sort()
return hn
}
func (n *node) replaceChild(label, tail byte, child *node) {
for i := 0; i < len(n.children[child.typ]); i++ {
if n.children[child.typ][i].label == label && n.children[child.typ][i].tail == tail {
n.children[child.typ][i] = child
n.children[child.typ][i].label = label
n.children[child.typ][i].tail = tail
return
}
}
panic("chi: replacing missing child")
}
func (n *node) getEdge(ntyp nodeTyp, label, tail byte, prefix string) *node {
nds := n.children[ntyp]
for i := 0; i < len(nds); i++ {
if nds[i].label == label && nds[i].tail == tail {
if ntyp == ntRegexp && nds[i].prefix != prefix {
continue
}
return nds[i]
}
}
return nil
}
func (n *node) setEndpoint(method methodTyp, handler http.Handler, pattern string) {
// Set the handler for the method type on the node
if n.endpoints == nil {
n.endpoints = make(endpoints)
}
paramKeys := patParamKeys(pattern)
if method&mSTUB == mSTUB {
n.endpoints.Value(mSTUB).handler = handler
}
if method&mALL == mALL {
h := n.endpoints.Value(mALL)
h.handler = handler
h.pattern = pattern
h.paramKeys = paramKeys
for _, m := range methodMap {
h := n.endpoints.Value(m)
h.handler = handler
h.pattern = pattern
h.paramKeys = paramKeys
}
} else {
h := n.endpoints.Value(method)
h.handler = handler
h.pattern = pattern
h.paramKeys = paramKeys
}
}
func (n *node) FindRoute(rctx *Context, method methodTyp, path string) (*node, endpoints, http.Handler) {
// Reset the context routing pattern and params
rctx.routePattern = ""
rctx.routeParams.Keys = rctx.routeParams.Keys[:0]
rctx.routeParams.Values = rctx.routeParams.Values[:0]
// Find the routing handlers for the path
rn := n.findRoute(rctx, method, path)
if rn == nil {
return nil, nil, nil
}
// Record the routing params in the request lifecycle
rctx.URLParams.Keys = append(rctx.URLParams.Keys, rctx.routeParams.Keys...)
rctx.URLParams.Values = append(rctx.URLParams.Values, rctx.routeParams.Values...)
// Record the routing pattern in the request lifecycle
if rn.endpoints[method].pattern != "" {
rctx.routePattern = rn.endpoints[method].pattern
rctx.RoutePatterns = append(rctx.RoutePatterns, rctx.routePattern)
}
return rn, rn.endpoints, rn.endpoints[method].handler
}
// Recursive edge traversal by checking all nodeTyp groups along the way.
// It's like searching through a multi-dimensional radix trie.
func (n *node) findRoute(rctx *Context, method methodTyp, path string) *node {
nn := n
search := path
for t, nds := range nn.children {
ntyp := nodeTyp(t)
if len(nds) == 0 {
continue
}
var xn *node
xsearch := search
var label byte
if search != "" {
label = search[0]
}
switch ntyp {
case ntStatic:
xn = nds.findEdge(label)
if xn == nil || !strings.HasPrefix(xsearch, xn.prefix) {
continue
}
xsearch = xsearch[len(xn.prefix):]
case ntParam, ntRegexp:
// short-circuit and return no matching route for empty param values
if xsearch == "" {
continue
}
// serially loop through each node grouped by the tail delimiter
for idx := 0; idx < len(nds); idx++ {
xn = nds[idx]
// label for param nodes is the delimiter byte
p := strings.IndexByte(xsearch, xn.tail)
if p < 0 {
if xn.tail == '/' {
p = len(xsearch)
} else {
continue
}
} else if ntyp == ntRegexp && p == 0 {
continue
}
if ntyp == ntRegexp && xn.rex != nil {
if !xn.rex.MatchString(xsearch[:p]) {
continue
}
} else if strings.IndexByte(xsearch[:p], '/') != -1 {
// avoid a match across path segments
continue
}
prevlen := len(rctx.routeParams.Values)
rctx.routeParams.Values = append(rctx.routeParams.Values, xsearch[:p])
xsearch = xsearch[p:]
if len(xsearch) == 0 {
if xn.isLeaf() {
h := xn.endpoints[method]
if h != nil && h.handler != nil {
rctx.routeParams.Keys = append(rctx.routeParams.Keys, h.paramKeys...)
return xn
}
// flag that the routing context found a route, but not a corresponding
// supported method
rctx.methodNotAllowed = true
}
}
// recursively find the next node on this branch
fin := xn.findRoute(rctx, method, xsearch)
if fin != nil {
return fin
}
// not found on this branch, reset vars
rctx.routeParams.Values = rctx.routeParams.Values[:prevlen]
xsearch = search
}
rctx.routeParams.Values = append(rctx.routeParams.Values, "")
default:
// catch-all nodes
rctx.routeParams.Values = append(rctx.routeParams.Values, search)
xn = nds[0]
xsearch = ""
}
if xn == nil {
continue
}
// did we find it yet?
if len(xsearch) == 0 {
if xn.isLeaf() {
h := xn.endpoints[method]
if h != nil && h.handler != nil {
rctx.routeParams.Keys = append(rctx.routeParams.Keys, h.paramKeys...)
return xn
}
// flag that the routing context found a route, but not a corresponding
// supported method
rctx.methodNotAllowed = true
}
}
// recursively find the next node..
fin := xn.findRoute(rctx, method, xsearch)
if fin != nil {
return fin
}
// Did not find final handler, let's remove the param here if it was set
if xn.typ > ntStatic {
if len(rctx.routeParams.Values) > 0 {
rctx.routeParams.Values = rctx.routeParams.Values[:len(rctx.routeParams.Values)-1]
}
}
}
return nil
}
func (n *node) findEdge(ntyp nodeTyp, label byte) *node {
nds := n.children[ntyp]
num := len(nds)
idx := 0
switch ntyp {
case ntStatic, ntParam, ntRegexp:
i, j := 0, num-1
for i <= j {
idx = i + (j-i)/2
if label > nds[idx].label {
i = idx + 1
} else if label < nds[idx].label {
j = idx - 1
} else {
i = num // breaks cond
}
}
if nds[idx].label != label {
return nil
}
return nds[idx]
default: // catch all
return nds[idx]
}
}
func (n *node) isLeaf() bool {
return n.endpoints != nil
}
func (n *node) findPattern(pattern string) bool {
nn := n
for _, nds := range nn.children {
if len(nds) == 0 {
continue
}
n = nn.findEdge(nds[0].typ, pattern[0])
if n == nil {
continue
}
var idx int
var xpattern string
switch n.typ {
case ntStatic:
idx = longestPrefix(pattern, n.prefix)
if idx < len(n.prefix) {
continue
}
case ntParam, ntRegexp:
idx = strings.IndexByte(pattern, '}') + 1
case ntCatchAll:
idx = longestPrefix(pattern, "*")
default:
panic("chi: unknown node type")
}
xpattern = pattern[idx:]
if len(xpattern) == 0 {
return true
}
return n.findPattern(xpattern)
}
return false
}
func (n *node) routes() []Route {
rts := []Route{}
n.walk(func(eps endpoints, subroutes Routes) bool {
if eps[mSTUB] != nil && eps[mSTUB].handler != nil && subroutes == nil {
return false
}
// Group methodHandlers by unique patterns
pats := make(map[string]endpoints)
for mt, h := range eps {
if h.pattern == "" {
continue
}
p, ok := pats[h.pattern]
if !ok {
p = endpoints{}
pats[h.pattern] = p
}
p[mt] = h
}
for p, mh := range pats {
hs := make(map[string]http.Handler)
if mh[mALL] != nil && mh[mALL].handler != nil {
hs["*"] = mh[mALL].handler
}
for mt, h := range mh {
if h.handler == nil {
continue
}
m := methodTypString(mt)
if m == "" {
continue
}
hs[m] = h.handler
}
rt := Route{subroutes, hs, p}
rts = append(rts, rt)
}
return false
})
return rts
}
func (n *node) walk(fn func(eps endpoints, subroutes Routes) bool) bool {
// Visit the leaf values if any
if (n.endpoints != nil || n.subroutes != nil) && fn(n.endpoints, n.subroutes) {
return true
}
// Recurse on the children
for _, ns := range n.children {
for _, cn := range ns {
if cn.walk(fn) {
return true
}
}
}
return false
}
// patNextSegment returns the next segment details from a pattern:
// node type, param key, regexp string, param tail byte, param starting index, param ending index
func patNextSegment(pattern string) (nodeTyp, string, string, byte, int, int) {
ps := strings.Index(pattern, "{")
ws := strings.Index(pattern, "*")
if ps < 0 && ws < 0 {
return ntStatic, "", "", 0, 0, len(pattern) // we return the entire thing
}
// Sanity check
if ps >= 0 && ws >= 0 && ws < ps {
panic("chi: wildcard '*' must be the last pattern in a route, otherwise use a '{param}'")
}
var tail byte = '/' // Default endpoint tail to / byte
if ps >= 0 {
// Param/Regexp pattern is next
nt := ntParam
// Read to closing } taking into account opens and closes in curl count (cc)
cc := 0
pe := ps
for i, c := range pattern[ps:] {
if c == '{' {
cc++
} else if c == '}' {
cc--
if cc == 0 {
pe = ps + i
break
}
}
}
if pe == ps {
panic("chi: route param closing delimiter '}' is missing")
}
key := pattern[ps+1 : pe]
pe++ // set end to next position
if pe < len(pattern) {
tail = pattern[pe]
}
var rexpat string
if idx := strings.Index(key, ":"); idx >= 0 {
nt = ntRegexp
rexpat = key[idx+1:]
key = key[:idx]
}
if len(rexpat) > 0 {
if rexpat[0] != '^' {
rexpat = "^" + rexpat
}
if rexpat[len(rexpat)-1] != '$' {
rexpat += "$"
}
}
return nt, key, rexpat, tail, ps, pe
}
// Wildcard pattern as finale
if ws < len(pattern)-1 {
panic("chi: wildcard '*' must be the last value in a route. trim trailing text or use a '{param}' instead")
}
return ntCatchAll, "*", "", 0, ws, len(pattern)
}
func patParamKeys(pattern string) []string {
pat := pattern
paramKeys := []string{}
for {
ptyp, paramKey, _, _, _, e := patNextSegment(pat)
if ptyp == ntStatic {
return paramKeys
}
for i := 0; i < len(paramKeys); i++ {
if paramKeys[i] == paramKey {
panic(fmt.Sprintf("chi: routing pattern '%s' contains duplicate param key, '%s'", pattern, paramKey))
}
}
paramKeys = append(paramKeys, paramKey)
pat = pat[e:]
}
}
// longestPrefix finds the length of the shared prefix
// of two strings
func longestPrefix(k1, k2 string) int {
max := len(k1)
if l := len(k2); l < max {
max = l
}
var i int
for i = 0; i < max; i++ {
if k1[i] != k2[i] {
break
}
}
return i
}
func methodTypString(method methodTyp) string {
for s, t := range methodMap {
if method == t {
return s
}
}
return ""
}
type nodes []*node
// Sort the list of nodes by label
func (ns nodes) Sort() { sort.Sort(ns); ns.tailSort() }
func (ns nodes) Len() int { return len(ns) }
func (ns nodes) Swap(i, j int) { ns[i], ns[j] = ns[j], ns[i] }
func (ns nodes) Less(i, j int) bool { return ns[i].label < ns[j].label }
// tailSort pushes nodes with '/' as the tail to the end of the list for param nodes.
// The list order determines the traversal order.
func (ns nodes) tailSort() {
for i := len(ns) - 1; i >= 0; i-- {
if ns[i].typ > ntStatic && ns[i].tail == '/' {
ns.Swap(i, len(ns)-1)
return
}
}
}
func (ns nodes) findEdge(label byte) *node {
num := len(ns)
idx := 0
i, j := 0, num-1
for i <= j {
idx = i + (j-i)/2
if label > ns[idx].label {
i = idx + 1
} else if label < ns[idx].label {
j = idx - 1
} else {
i = num // breaks cond
}
}
if ns[idx].label != label {
return nil
}
return ns[idx]
}
// Route describes the details of a routing handler.
// Handlers map key is an HTTP method
type Route struct {
SubRoutes Routes
Handlers map[string]http.Handler
Pattern string
}
// WalkFunc is the type of the function called for each method and route visited by Walk.
type WalkFunc func(method string, route string, handler http.Handler, middlewares ...func(http.Handler) http.Handler) error
// Walk walks any router tree that implements Routes interface.
func Walk(r Routes, walkFn WalkFunc) error {
return walk(r, walkFn, "")
}
func walk(r Routes, walkFn WalkFunc, parentRoute string, parentMw ...func(http.Handler) http.Handler) error {
for _, route := range r.Routes() {
mws := make([]func(http.Handler) http.Handler, len(parentMw))
copy(mws, parentMw)
mws = append(mws, r.Middlewares()...)
if route.SubRoutes != nil {
if err := walk(route.SubRoutes, walkFn, parentRoute+route.Pattern, mws...); err != nil {
return err
}
continue
}
for method, handler := range route.Handlers {
if method == "*" {
// Ignore a "catchAll" method, since we pass down all the specific methods for each route.
continue
}
fullRoute := parentRoute + route.Pattern
fullRoute = strings.Replace(fullRoute, "/*/", "/", -1)
if chain, ok := handler.(*ChainHandler); ok {
if err := walkFn(method, fullRoute, chain.Endpoint, append(mws, chain.Middlewares...)...); err != nil {
return err
}
} else {
if err := walkFn(method, fullRoute, handler, mws...); err != nil {
return err
}
}
}
}
return nil
}

3
vendor/modules.txt vendored
View File

@ -1,3 +1,6 @@
# github.com/go-chi/chi/v5 v5.0.8
## explicit; go 1.14
github.com/go-chi/chi/v5
# github.com/h2non/filetype v1.1.3
## explicit; go 1.13
github.com/h2non/filetype