mirror of
https://github.com/caddyserver/caddy.git
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3c90e370a4
This commit goes a long way toward making automated documentation of Caddy config and Caddy modules possible. It's a broad, sweeping change, but mostly internal. It allows us to automatically generate docs for all Caddy modules (including future third-party ones) and make them viewable on a web page; it also doubles as godoc comments. As such, this commit makes significant progress in migrating the docs from our temporary wiki page toward our new website which is still under construction. With this change, all host modules will use ctx.LoadModule() and pass in both the struct pointer and the field name as a string. This allows the reflect package to read the struct tag from that field so that it can get the necessary information like the module namespace and the inline key. This has the nice side-effect of unifying the code and documentation. It also simplifies module loading, and handles several variations on field types for raw module fields (i.e. variations on json.RawMessage, such as arrays and maps). I also renamed ModuleInfo.Name -> ModuleInfo.ID, to make it clear that the ID is the "full name" which includes both the module namespace and the name. This clarity is helpful when describing module hierarchy. As of this change, Caddy modules are no longer an experimental design. I think the architecture is good enough to go forward.
362 lines
12 KiB
Go
362 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 caddy
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import (
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"bytes"
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"encoding/json"
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"fmt"
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"reflect"
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"sort"
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"strings"
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"sync"
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)
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// Module is a type that is used as a Caddy module. In
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// addition to this interface, most modules will implement
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// some interface expected by their host module in order
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// to be useful. To learn which interface(s) to implement,
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// see the documentation for the host module. At a bare
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// minimum, this interface, when implemented, only provides
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// the module's ID and constructor function.
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//
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// Modules will often implement additional interfaces
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// including Provisioner, Validator, and CleanerUpper.
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// If a module implements these interfaces, their
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// methods are called during the module's lifespan.
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//
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// When a module is loaded by a host module, the following
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// happens: 1) ModuleInfo.New() is called to get a new
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// instance of the module. 2) The module's configuration is
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// unmarshaled into that instance. 3) If the module is a
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// Provisioner, the Provision() method is called. 4) If the
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// module is a Validator, the Validate() method is called.
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// 5) The module will probably be type-asserted from
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// interface{} to some other, more useful interface expected
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// by the host module. For example, HTTP handler modules are
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// type-asserted as caddyhttp.MiddlewareHandler values.
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// 6) When a module's containing Context is canceled, if it is
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// a CleanerUpper, its Cleanup() method is called.
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type Module interface {
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// This method indicates that the type is a Caddy
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// module. The returned ModuleInfo must have both
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// a name and a constructor function. This method
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// must not have any side-effects.
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CaddyModule() ModuleInfo
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}
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// ModuleInfo represents a registered Caddy module.
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type ModuleInfo struct {
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// ID is the "full name" of the module. It
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// must be unique and properly namespaced.
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ID ModuleID
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// New returns a pointer to a new, empty
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// instance of the module's type. This
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// function must not have any side-effects.
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New func() Module
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}
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// ModuleID is a string that uniquely identifies a Caddy module. A
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// module ID is lightly structured. It consists of dot-separated
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// labels which form a simple hierarchy from left to right. The last
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// label is the module name, and the labels before that constitute
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// the namespace (or scope).
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//
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// Thus, a module ID has the form: <namespace>.<id>
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//
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// An ID with no dot has the empty namespace, which is appropriate
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// for app modules (these are "top-level" modules that Caddy core
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// loads and runs).
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//
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// Module IDs should be lowercase and use underscore (_) instead of
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// spaces.
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//
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// Example valid names:
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// - http
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// - http.handlers.file_server
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// - caddy.logging.encoders.json
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type ModuleID string
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// Namespace returns the namespace (or scope) portion of a module ID,
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// which is all but the last label of the ID. If the ID has only one
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// label, then
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func (id ModuleID) Namespace() string {
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lastDot := strings.LastIndex(string(id), ".")
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if lastDot < 0 {
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return string(id)
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}
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return string(id)[:lastDot]
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}
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// Name returns the Name (last element) of a module name.
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func (id ModuleID) Name() string {
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if id == "" {
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return ""
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}
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parts := strings.Split(string(id), ".")
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return parts[len(parts)-1]
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}
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func (mi ModuleInfo) String() string { return string(mi.ID) }
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// ModuleMap is a map that can contain multiple modules,
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// where the map key is the module's name. (The namespace
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// is usually read from an associated field's struct tag.)
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// Because the module's name is given as the key in a
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// module map, the name does not have to be given in the
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// json.RawMessage.
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type ModuleMap map[string]json.RawMessage
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// RegisterModule registers a module by receiving a
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// plain/empty value of the module. For registration to
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// be properly recorded, this should be called in the
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// init phase of runtime. Typically, the module package
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// will do this as a side-effect of being imported.
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// This function returns an error if the module's info
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// is incomplete or invalid, or if the module is
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// already registered.
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func RegisterModule(instance Module) error {
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mod := instance.CaddyModule()
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if mod.ID == "" {
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return fmt.Errorf("module ID missing")
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}
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if mod.ID == "caddy" || mod.ID == "admin" {
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return fmt.Errorf("module ID '%s' is reserved", mod.ID)
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}
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if mod.New == nil {
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return fmt.Errorf("missing ModuleInfo.New")
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}
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if val := mod.New(); val == nil {
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return fmt.Errorf("ModuleInfo.New must return a non-nil module instance")
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}
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modulesMu.Lock()
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defer modulesMu.Unlock()
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if _, ok := modules[string(mod.ID)]; ok {
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return fmt.Errorf("module already registered: %s", mod.ID)
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}
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modules[string(mod.ID)] = mod
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return nil
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}
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// GetModule returns module information from its ID (full name).
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func GetModule(name string) (ModuleInfo, error) {
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modulesMu.RLock()
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defer modulesMu.RUnlock()
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m, ok := modules[name]
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if !ok {
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return ModuleInfo{}, fmt.Errorf("module not registered: %s", name)
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}
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return m, nil
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}
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// GetModuleName returns a module's name (the last label of its ID)
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// from an instance of its value. If the value is not a module, an
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// empty string will be returned.
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func GetModuleName(instance interface{}) string {
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var name string
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if mod, ok := instance.(Module); ok {
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name = mod.CaddyModule().ID.Name()
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}
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return name
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}
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// GetModuleID returns a module's ID from an instance of its value.
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// If the value is not a module, an empty string will be returned.
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func GetModuleID(instance interface{}) string {
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var id string
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if mod, ok := instance.(Module); ok {
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id = string(mod.CaddyModule().ID)
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}
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return id
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}
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// GetModules returns all modules in the given scope/namespace.
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// For example, a scope of "foo" returns modules named "foo.bar",
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// "foo.loo", but not "bar", "foo.bar.loo", etc. An empty scope
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// returns top-level modules, for example "foo" or "bar". Partial
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// scopes are not matched (i.e. scope "foo.ba" does not match
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// name "foo.bar").
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//
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// Because modules are registered to a map under the hood, the
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// returned slice will be sorted to keep it deterministic.
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func GetModules(scope string) []ModuleInfo {
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modulesMu.RLock()
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defer modulesMu.RUnlock()
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scopeParts := strings.Split(scope, ".")
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// handle the special case of an empty scope, which
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// should match only the top-level modules
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if scope == "" {
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scopeParts = []string{}
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}
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var mods []ModuleInfo
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iterateModules:
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for id, m := range modules {
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modParts := strings.Split(string(id), ".")
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// match only the next level of nesting
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if len(modParts) != len(scopeParts)+1 {
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continue
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}
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// specified parts must be exact matches
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for i := range scopeParts {
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if modParts[i] != scopeParts[i] {
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continue iterateModules
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}
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}
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mods = append(mods, m)
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}
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// make return value deterministic
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sort.Slice(mods, func(i, j int) bool {
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return mods[i].ID < mods[j].ID
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})
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return mods
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}
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// Modules returns the names of all registered modules
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// in ascending lexicographical order.
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func Modules() []string {
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modulesMu.RLock()
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defer modulesMu.RUnlock()
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var names []string
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for name := range modules {
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names = append(names, string(name))
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}
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sort.Strings(names)
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return names
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}
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// getModuleNameInline loads the string value from raw of moduleNameKey,
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// where raw must be a JSON encoding of a map. It returns that value,
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// along with the result of removing that key from raw.
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func getModuleNameInline(moduleNameKey string, raw json.RawMessage) (string, json.RawMessage, error) {
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var tmp map[string]interface{}
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err := json.Unmarshal(raw, &tmp)
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if err != nil {
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return "", nil, err
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}
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moduleName, ok := tmp[moduleNameKey].(string)
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if !ok || moduleName == "" {
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return "", nil, fmt.Errorf("module name not specified with key '%s' in %+v", moduleNameKey, tmp)
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}
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// remove key from the object, otherwise decoding it later
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// will yield an error because the struct won't recognize it
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// (this is only needed because we strictly enforce that
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// all keys are recognized when loading modules)
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delete(tmp, moduleNameKey)
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result, err := json.Marshal(tmp)
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if err != nil {
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return "", nil, fmt.Errorf("re-encoding module configuration: %v", err)
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}
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return moduleName, result, nil
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}
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// Provisioner is implemented by modules which may need to perform
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// some additional "setup" steps immediately after being loaded.
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// Provisioning should be fast (imperceptible running time). If
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// any side-effects result in the execution of this function (e.g.
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// creating global state, any other allocations which require
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// garbage collection, opening files, starting goroutines etc.),
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// be sure to clean up properly by implementing the CleanerUpper
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// interface to avoid leaking resources.
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type Provisioner interface {
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Provision(Context) error
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}
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// Validator is implemented by modules which can verify that their
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// configurations are valid. This method will be called after
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// Provision() (if implemented). Validation should always be fast
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// (imperceptible running time) and an error should be returned only
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// if the value's configuration is invalid.
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type Validator interface {
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Validate() error
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}
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// CleanerUpper is implemented by modules which may have side-effects
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// such as opened files, spawned goroutines, or allocated some sort
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// of non-stack state when they were provisioned. This method should
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// deallocate/cleanup those resources to prevent memory leaks. Cleanup
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// should be fast and efficient. Cleanup should work even if Provision
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// returns an error, to allow cleaning up from partial provisionings.
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type CleanerUpper interface {
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Cleanup() error
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}
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// ParseStructTag parses a caddy struct tag into its keys and values.
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// It is very simple. The expected syntax is:
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// `caddy:"key1=val1 key2=val2 ..."`
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func ParseStructTag(tag string) (map[string]string, error) {
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results := make(map[string]string)
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pairs := strings.Split(tag, " ")
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for i, pair := range pairs {
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if pair == "" {
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continue
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}
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parts := strings.SplitN(pair, "=", 2)
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if len(parts) != 2 {
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return nil, fmt.Errorf("missing key in '%s' (pair %d)", pair, i)
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}
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results[parts[0]] = parts[1]
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}
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return results, nil
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}
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// strictUnmarshalJSON is like json.Unmarshal but returns an error
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// if any of the fields are unrecognized. Useful when decoding
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// module configurations, where you want to be more sure they're
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// correct.
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func strictUnmarshalJSON(data []byte, v interface{}) error {
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dec := json.NewDecoder(bytes.NewReader(data))
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dec.DisallowUnknownFields()
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return dec.Decode(v)
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}
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// isJSONRawMessage returns true if the type is encoding/json.RawMessage.
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func isJSONRawMessage(typ reflect.Type) bool {
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return typ.PkgPath() == "encoding/json" && typ.Name() == "RawMessage"
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}
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// isModuleMapType returns true if the type is map[string]json.RawMessage.
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// It assumes that the string key is the module name, but this is not
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// always the case. To know for sure, this function must return true, but
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// also the struct tag where this type appears must NOT define an inline_key
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// attribute, which would mean that the module names appear inline with the
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// values, not in the key.
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func isModuleMapType(typ reflect.Type) bool {
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return typ.Kind() == reflect.Map &&
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typ.Key().Kind() == reflect.String &&
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isJSONRawMessage(typ.Elem())
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}
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var (
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modules = make(map[string]ModuleInfo)
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modulesMu sync.RWMutex
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)
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