mirror of
https://github.com/caddyserver/caddy.git
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c9980fd367
Use piles from which to draw config values. Module values can return their name, so now we can do two-way mapping from value to name and name to value; whereas before we could only map name to value. This was problematic with the Caddyfile adapter since it receives values and needs to know the name to put in the config.
265 lines
7.7 KiB
Go
265 lines
7.7 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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"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.
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type Module interface {
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// This method indicates the type is a Caddy
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// module. The returned ModuleInfo must have
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// both a name and a constructor function.
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// This method 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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// Name is the full name of the module. It
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// must be unique and properly namespaced.
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Name string
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// New returns a pointer to a new, empty
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// instance of the module's type. The host
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// module which instantiates this module will
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// likely type-assert and invoke methods on
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// the returned value. This function must not
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// have any side-effects.
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New func() Module
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}
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// Namespace returns the module's namespace (scope)
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// which is all but the last element of its name.
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// If there is no explicit namespace in the name,
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// the whole name is considered the namespace.
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func (mi ModuleInfo) Namespace() string {
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lastDot := strings.LastIndex(mi.Name, ".")
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if lastDot < 0 {
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return mi.Name
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}
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return mi.Name[:lastDot]
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}
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// ID returns a module's ID, which is the
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// last element of its name.
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func (mi ModuleInfo) ID() string {
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if mi.Name == "" {
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return ""
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}
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parts := strings.Split(mi.Name, ".")
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return parts[len(parts)-1]
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}
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func (mi ModuleInfo) String() string { return mi.Name }
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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.Name == "" {
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return fmt.Errorf("missing ModuleInfo.Name")
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}
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if mod.Name == "caddy" || mod.Name == "admin" {
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return fmt.Errorf("module name '%s' is reserved", mod.Name)
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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[mod.Name]; ok {
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return fmt.Errorf("module already registered: %s", mod.Name)
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}
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modules[mod.Name] = mod
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return nil
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}
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// GetModule returns module information from its full name.
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func GetModule(name string) (ModuleInfo, error) {
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modulesMu.Lock()
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defer modulesMu.Unlock()
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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 from an instance of its value.
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// If the value is not a module, an empty name 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().Name
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}
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return name
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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, the returned slice
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// will be sorted to keep it deterministic.
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func GetModules(scope string) []ModuleInfo {
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modulesMu.Lock()
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defer modulesMu.Unlock()
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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 name, m := range modules {
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modParts := strings.Split(name, ".")
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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].Name < mods[j].Name
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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.Lock()
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defer modulesMu.Unlock()
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var names []string
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for name := range modules {
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names = append(names, 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-local 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.
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type CleanerUpper interface {
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Cleanup() error
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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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var (
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modules = make(map[string]ModuleInfo)
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modulesMu sync.Mutex
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)
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