mirror of
https://github.com/caddyserver/caddy.git
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907e2d8d3a
* caddyhttp: Add support for triggering errors from `try_files` * caddyhttp: Use vars instead of placeholders/replacer for matcher errors * caddyhttp: Add comment for matcher error var key
330 lines
12 KiB
Go
330 lines
12 KiB
Go
// Copyright 2015 Matthew Holt and The Caddy Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package caddyhttp
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import (
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"encoding/json"
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"fmt"
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"net/http"
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"github.com/caddyserver/caddy/v2"
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)
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// Route consists of a set of rules for matching HTTP requests,
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// a list of handlers to execute, and optional flow control
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// parameters which customize the handling of HTTP requests
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// in a highly flexible and performant manner.
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type Route struct {
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// Group is an optional name for a group to which this
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// route belongs. Grouping a route makes it mutually
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// exclusive with others in its group; if a route belongs
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// to a group, only the first matching route in that group
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// will be executed.
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Group string `json:"group,omitempty"`
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// The matcher sets which will be used to qualify this
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// route for a request (essentially the "if" statement
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// of this route). Each matcher set is OR'ed, but matchers
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// within a set are AND'ed together.
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MatcherSetsRaw RawMatcherSets `json:"match,omitempty" caddy:"namespace=http.matchers"`
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// The list of handlers for this route. Upon matching a request, they are chained
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// together in a middleware fashion: requests flow from the first handler to the last
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// (top of the list to the bottom), with the possibility that any handler could stop
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// the chain and/or return an error. Responses flow back through the chain (bottom of
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// the list to the top) as they are written out to the client.
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//
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// Not all handlers call the next handler in the chain. For example, the reverse_proxy
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// handler always sends a request upstream or returns an error. Thus, configuring
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// handlers after reverse_proxy in the same route is illogical, since they would never
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// be executed. You will want to put handlers which originate the response at the very
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// end of your route(s). The documentation for a module should state whether it invokes
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// the next handler, but sometimes it is common sense.
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//
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// Some handlers manipulate the response. Remember that requests flow down the list, and
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// responses flow up the list.
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//
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// For example, if you wanted to use both `templates` and `encode` handlers, you would
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// need to put `templates` after `encode` in your route, because responses flow up.
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// Thus, `templates` will be able to parse and execute the plain-text response as a
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// template, and then return it up to the `encode` handler which will then compress it
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// into a binary format.
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//
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// If `templates` came before `encode`, then `encode` would write a compressed,
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// binary-encoded response to `templates` which would not be able to parse the response
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// properly.
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//
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// The correct order, then, is this:
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//
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// [
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// {"handler": "encode"},
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// {"handler": "templates"},
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// {"handler": "file_server"}
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// ]
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//
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// The request flows ⬇️ DOWN (`encode` -> `templates` -> `file_server`).
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//
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// 1. First, `encode` will choose how to `encode` the response and wrap the response.
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// 2. Then, `templates` will wrap the response with a buffer.
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// 3. Finally, `file_server` will originate the content from a file.
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//
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// The response flows ⬆️ UP (`file_server` -> `templates` -> `encode`):
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//
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// 1. First, `file_server` will write the file to the response.
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// 2. That write will be buffered and then executed by `templates`.
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// 3. Lastly, the write from `templates` will flow into `encode` which will compress the stream.
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//
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// If you think of routes in this way, it will be easy and even fun to solve the puzzle of writing correct routes.
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HandlersRaw []json.RawMessage `json:"handle,omitempty" caddy:"namespace=http.handlers inline_key=handler"`
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// If true, no more routes will be executed after this one.
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Terminal bool `json:"terminal,omitempty"`
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// decoded values
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MatcherSets MatcherSets `json:"-"`
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Handlers []MiddlewareHandler `json:"-"`
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middleware []Middleware
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}
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// Empty returns true if the route has all zero/default values.
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func (r Route) Empty() bool {
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return len(r.MatcherSetsRaw) == 0 &&
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len(r.MatcherSets) == 0 &&
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len(r.HandlersRaw) == 0 &&
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len(r.Handlers) == 0 &&
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!r.Terminal &&
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r.Group == ""
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}
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// RouteList is a list of server routes that can
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// create a middleware chain.
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type RouteList []Route
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// Provision sets up both the matchers and handlers in the routes.
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func (routes RouteList) Provision(ctx caddy.Context) error {
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err := routes.ProvisionMatchers(ctx)
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if err != nil {
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return err
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}
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return routes.ProvisionHandlers(ctx)
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}
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// ProvisionMatchers sets up all the matchers by loading the
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// matcher modules. Only call this method directly if you need
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// to set up matchers and handlers separately without having
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// to provision a second time; otherwise use Provision instead.
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func (routes RouteList) ProvisionMatchers(ctx caddy.Context) error {
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for i := range routes {
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// matchers
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matchersIface, err := ctx.LoadModule(&routes[i], "MatcherSetsRaw")
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if err != nil {
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return fmt.Errorf("route %d: loading matcher modules: %v", i, err)
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}
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err = routes[i].MatcherSets.FromInterface(matchersIface)
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if err != nil {
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return fmt.Errorf("route %d: %v", i, err)
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}
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}
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return nil
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}
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// ProvisionHandlers sets up all the handlers by loading the
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// handler modules. Only call this method directly if you need
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// to set up matchers and handlers separately without having
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// to provision a second time; otherwise use Provision instead.
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func (routes RouteList) ProvisionHandlers(ctx caddy.Context) error {
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for i := range routes {
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handlersIface, err := ctx.LoadModule(&routes[i], "HandlersRaw")
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if err != nil {
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return fmt.Errorf("route %d: loading handler modules: %v", i, err)
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}
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for _, handler := range handlersIface.([]interface{}) {
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routes[i].Handlers = append(routes[i].Handlers, handler.(MiddlewareHandler))
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}
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// pre-compile the middleware handler chain
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for _, midhandler := range routes[i].Handlers {
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routes[i].middleware = append(routes[i].middleware, wrapMiddleware(ctx, midhandler))
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}
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}
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return nil
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}
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// Compile prepares a middleware chain from the route list.
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// This should only be done once: after all the routes have
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// been provisioned, and before serving requests.
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func (routes RouteList) Compile(next Handler) Handler {
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mid := make([]Middleware, 0, len(routes))
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for _, route := range routes {
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mid = append(mid, wrapRoute(route))
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}
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stack := next
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for i := len(mid) - 1; i >= 0; i-- {
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stack = mid[i](stack)
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}
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return stack
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}
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// wrapRoute wraps route with a middleware and handler so that it can
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// be chained in and defer evaluation of its matchers to request-time.
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// Like wrapMiddleware, it is vital that this wrapping takes place in
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// its own stack frame so as to not overwrite the reference to the
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// intended route by looping and changing the reference each time.
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func wrapRoute(route Route) Middleware {
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return func(next Handler) Handler {
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return HandlerFunc(func(rw http.ResponseWriter, req *http.Request) error {
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// TODO: Update this comment, it seems we've moved the copy into the handler?
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// copy the next handler (it's an interface, so it's just
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// a very lightweight copy of a pointer); this is important
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// because this is a closure to the func below, which
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// re-assigns the value as it compiles the middleware stack;
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// if we don't make this copy, we'd affect the underlying
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// pointer for all future request (yikes); we could
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// alternatively solve this by moving the func below out of
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// this closure and into a standalone package-level func,
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// but I just thought this made more sense
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nextCopy := next
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// route must match at least one of the matcher sets
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if !route.MatcherSets.AnyMatch(req) {
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// allow matchers the opportunity to short circuit
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// the request and trigger the error handling chain
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err, ok := GetVar(req.Context(), MatcherErrorVarKey).(error)
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if ok {
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return err
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}
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// call the next handler, and skip this one,
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// since the matcher didn't match
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return nextCopy.ServeHTTP(rw, req)
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}
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// if route is part of a group, ensure only the
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// first matching route in the group is applied
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if route.Group != "" {
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groups := req.Context().Value(routeGroupCtxKey).(map[string]struct{})
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if _, ok := groups[route.Group]; ok {
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// this group has already been
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// satisfied by a matching route
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return nextCopy.ServeHTTP(rw, req)
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}
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// this matching route satisfies the group
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groups[route.Group] = struct{}{}
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}
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// make terminal routes terminate
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if route.Terminal {
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if _, ok := req.Context().Value(ErrorCtxKey).(error); ok {
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nextCopy = errorEmptyHandler
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} else {
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nextCopy = emptyHandler
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}
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}
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// compile this route's handler stack
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for i := len(route.middleware) - 1; i >= 0; i-- {
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nextCopy = route.middleware[i](nextCopy)
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}
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return nextCopy.ServeHTTP(rw, req)
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})
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}
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}
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// wrapMiddleware wraps mh such that it can be correctly
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// appended to a list of middleware in preparation for
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// compiling into a handler chain. We can't do this inline
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// inside a loop, because it relies on a reference to mh
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// not changing until the execution of its handler (which
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// is deferred by multiple func closures). In other words,
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// we need to pull this particular MiddlewareHandler
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// pointer into its own stack frame to preserve it so it
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// won't be overwritten in future loop iterations.
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func wrapMiddleware(ctx caddy.Context, mh MiddlewareHandler) Middleware {
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// wrap the middleware with metrics instrumentation
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metricsHandler := newMetricsInstrumentedHandler(caddy.GetModuleName(mh), mh)
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return func(next Handler) Handler {
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// copy the next handler (it's an interface, so it's
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// just a very lightweight copy of a pointer); this
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// is a safeguard against the handler changing the
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// value, which could affect future requests (yikes)
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nextCopy := next
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return HandlerFunc(func(w http.ResponseWriter, r *http.Request) error {
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// TODO: This is where request tracing could be implemented
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// TODO: see what the std lib gives us in terms of stack tracing too
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return metricsHandler.ServeHTTP(w, r, nextCopy)
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})
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}
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}
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// MatcherSet is a set of matchers which
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// must all match in order for the request
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// to be matched successfully.
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type MatcherSet []RequestMatcher
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// Match returns true if the request matches all
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// matchers in mset or if there are no matchers.
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func (mset MatcherSet) Match(r *http.Request) bool {
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for _, m := range mset {
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if !m.Match(r) {
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return false
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}
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}
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return true
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}
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// RawMatcherSets is a group of matcher sets
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// in their raw, JSON form.
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type RawMatcherSets []caddy.ModuleMap
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// MatcherSets is a group of matcher sets capable
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// of checking whether a request matches any of
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// the sets.
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type MatcherSets []MatcherSet
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// AnyMatch returns true if req matches any of the
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// matcher sets in ms or if there are no matchers,
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// in which case the request always matches.
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func (ms MatcherSets) AnyMatch(req *http.Request) bool {
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for _, m := range ms {
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if m.Match(req) {
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return true
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}
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}
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return len(ms) == 0
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}
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// FromInterface fills ms from an interface{} value obtained from LoadModule.
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func (ms *MatcherSets) FromInterface(matcherSets interface{}) error {
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for _, matcherSetIfaces := range matcherSets.([]map[string]interface{}) {
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var matcherSet MatcherSet
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for _, matcher := range matcherSetIfaces {
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reqMatcher, ok := matcher.(RequestMatcher)
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if !ok {
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return fmt.Errorf("decoded module is not a RequestMatcher: %#v", matcher)
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}
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matcherSet = append(matcherSet, reqMatcher)
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}
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*ms = append(*ms, matcherSet)
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}
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return nil
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}
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var routeGroupCtxKey = caddy.CtxKey("route_group")
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