// Copyright 2015 Matthew Holt and The Caddy Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package caddy import ( "bytes" "context" "encoding/hex" "encoding/json" "errors" "fmt" "io" "io/fs" "log" "net/http" "os" "path" "path/filepath" "runtime/debug" "strconv" "strings" "sync" "sync/atomic" "time" "github.com/caddyserver/certmagic" "github.com/google/uuid" "go.uber.org/zap" "github.com/caddyserver/caddy/v2/internal/filesystems" "github.com/caddyserver/caddy/v2/notify" ) // Config is the top (or beginning) of the Caddy configuration structure. // Caddy config is expressed natively as a JSON document. If you prefer // not to work with JSON directly, there are [many config adapters](/docs/config-adapters) // available that can convert various inputs into Caddy JSON. // // Many parts of this config are extensible through the use of Caddy modules. // Fields which have a json.RawMessage type and which appear as dots (•••) in // the online docs can be fulfilled by modules in a certain module // namespace. The docs show which modules can be used in a given place. // // Whenever a module is used, its name must be given either inline as part of // the module, or as the key to the module's value. The docs will make it clear // which to use. // // Generally, all config settings are optional, as it is Caddy convention to // have good, documented default values. If a parameter is required, the docs // should say so. // // Go programs which are directly building a Config struct value should take // care to populate the JSON-encodable fields of the struct (i.e. the fields // with `json` struct tags) if employing the module lifecycle (e.g. Provision // method calls). type Config struct { Admin *AdminConfig `json:"admin,omitempty"` Logging *Logging `json:"logging,omitempty"` // StorageRaw is a storage module that defines how/where Caddy // stores assets (such as TLS certificates). The default storage // module is `caddy.storage.file_system` (the local file system), // and the default path // [depends on the OS and environment](/docs/conventions#data-directory). StorageRaw json.RawMessage `json:"storage,omitempty" caddy:"namespace=caddy.storage inline_key=module"` // AppsRaw are the apps that Caddy will load and run. The // app module name is the key, and the app's config is the // associated value. AppsRaw ModuleMap `json:"apps,omitempty" caddy:"namespace="` apps map[string]App storage certmagic.Storage cancelFunc context.CancelFunc // filesystems is a dict of filesystems that will later be loaded from and added to. filesystems FileSystems } // App is a thing that Caddy runs. type App interface { Start() error Stop() error } // Run runs the given config, replacing any existing config. func Run(cfg *Config) error { cfgJSON, err := json.Marshal(cfg) if err != nil { return err } return Load(cfgJSON, true) } // Load loads the given config JSON and runs it only // if it is different from the current config or // forceReload is true. func Load(cfgJSON []byte, forceReload bool) error { if err := notify.Reloading(); err != nil { Log().Error("unable to notify service manager of reloading state", zap.Error(err)) } // after reload, notify system of success or, if // failure, update with status (error message) var err error defer func() { if err != nil { if notifyErr := notify.Error(err, 0); notifyErr != nil { Log().Error("unable to notify to service manager of reload error", zap.Error(notifyErr), zap.String("reload_err", err.Error())) } return } if err := notify.Ready(); err != nil { Log().Error("unable to notify to service manager of ready state", zap.Error(err)) } }() err = changeConfig(http.MethodPost, "/"+rawConfigKey, cfgJSON, "", forceReload) if errors.Is(err, errSameConfig) { err = nil // not really an error } return err } // changeConfig changes the current config (rawCfg) according to the // method, traversed via the given path, and uses the given input as // the new value (if applicable; i.e. "DELETE" doesn't have an input). // If the resulting config is the same as the previous, no reload will // occur unless forceReload is true. If the config is unchanged and not // forcefully reloaded, then errConfigUnchanged This function is safe for // concurrent use. // The ifMatchHeader can optionally be given a string of the format: // // " " // // where is the absolute path in the config and is the expected hash of // the config at that path. If the hash in the ifMatchHeader doesn't match // the hash of the config, then an APIError with status 412 will be returned. func changeConfig(method, path string, input []byte, ifMatchHeader string, forceReload bool) error { switch method { case http.MethodGet, http.MethodHead, http.MethodOptions, http.MethodConnect, http.MethodTrace: return fmt.Errorf("method not allowed") } rawCfgMu.Lock() defer rawCfgMu.Unlock() if ifMatchHeader != "" { // expect the first and last character to be quotes if len(ifMatchHeader) < 2 || ifMatchHeader[0] != '"' || ifMatchHeader[len(ifMatchHeader)-1] != '"' { return APIError{ HTTPStatus: http.StatusBadRequest, Err: fmt.Errorf("malformed If-Match header; expect quoted string"), } } // read out the parts parts := strings.Fields(ifMatchHeader[1 : len(ifMatchHeader)-1]) if len(parts) != 2 { return APIError{ HTTPStatus: http.StatusBadRequest, Err: fmt.Errorf("malformed If-Match header; expect format \" \""), } } // get the current hash of the config // at the given path hash := etagHasher() err := unsyncedConfigAccess(http.MethodGet, parts[0], nil, hash) if err != nil { return err } if hex.EncodeToString(hash.Sum(nil)) != parts[1] { return APIError{ HTTPStatus: http.StatusPreconditionFailed, Err: fmt.Errorf("If-Match header did not match current config hash"), } } } err := unsyncedConfigAccess(method, path, input, nil) if err != nil { return err } // the mutation is complete, so encode the entire config as JSON newCfg, err := json.Marshal(rawCfg[rawConfigKey]) if err != nil { return APIError{ HTTPStatus: http.StatusBadRequest, Err: fmt.Errorf("encoding new config: %v", err), } } // if nothing changed, no need to do a whole reload unless the client forces it if !forceReload && bytes.Equal(rawCfgJSON, newCfg) { Log().Info("config is unchanged") return errSameConfig } // find any IDs in this config and index them idx := make(map[string]string) err = indexConfigObjects(rawCfg[rawConfigKey], "/"+rawConfigKey, idx) if err != nil { return APIError{ HTTPStatus: http.StatusInternalServerError, Err: fmt.Errorf("indexing config: %v", err), } } // load this new config; if it fails, we need to revert to // our old representation of caddy's actual config err = unsyncedDecodeAndRun(newCfg, true) if err != nil { if len(rawCfgJSON) > 0 { // restore old config state to keep it consistent // with what caddy is still running; we need to // unmarshal it again because it's likely that // pointers deep in our rawCfg map were modified var oldCfg any err2 := json.Unmarshal(rawCfgJSON, &oldCfg) if err2 != nil { err = fmt.Errorf("%v; additionally, restoring old config: %v", err, err2) } rawCfg[rawConfigKey] = oldCfg } return fmt.Errorf("loading new config: %v", err) } // success, so update our stored copy of the encoded // config to keep it consistent with what caddy is now // running (storing an encoded copy is not strictly // necessary, but avoids an extra json.Marshal for // each config change) rawCfgJSON = newCfg rawCfgIndex = idx return nil } // readConfig traverses the current config to path // and writes its JSON encoding to out. func readConfig(path string, out io.Writer) error { rawCfgMu.RLock() defer rawCfgMu.RUnlock() return unsyncedConfigAccess(http.MethodGet, path, nil, out) } // indexConfigObjects recursively searches ptr for object fields named // "@id" and maps that ID value to the full configPath in the index. // This function is NOT safe for concurrent access; obtain a write lock // on currentCtxMu. func indexConfigObjects(ptr any, configPath string, index map[string]string) error { switch val := ptr.(type) { case map[string]any: for k, v := range val { if k == idKey { switch idVal := v.(type) { case string: index[idVal] = configPath case float64: // all JSON numbers decode as float64 index[fmt.Sprintf("%v", idVal)] = configPath default: return fmt.Errorf("%s: %s field must be a string or number", configPath, idKey) } continue } // traverse this object property recursively err := indexConfigObjects(val[k], path.Join(configPath, k), index) if err != nil { return err } } case []any: // traverse each element of the array recursively for i := range val { err := indexConfigObjects(val[i], path.Join(configPath, strconv.Itoa(i)), index) if err != nil { return err } } } return nil } // unsyncedDecodeAndRun removes any meta fields (like @id tags) // from cfgJSON, decodes the result into a *Config, and runs // it as the new config, replacing any other current config. // It does NOT update the raw config state, as this is a // lower-level function; most callers will want to use Load // instead. A write lock on rawCfgMu is required! If // allowPersist is false, it will not be persisted to disk, // even if it is configured to. func unsyncedDecodeAndRun(cfgJSON []byte, allowPersist bool) error { // remove any @id fields from the JSON, which would cause // loading to break since the field wouldn't be recognized strippedCfgJSON := RemoveMetaFields(cfgJSON) var newCfg *Config err := StrictUnmarshalJSON(strippedCfgJSON, &newCfg) if err != nil { return err } // prevent recursive config loads; that is a user error, and // although frequent config loads should be safe, we cannot // guarantee that in the presence of third party plugins, nor // do we want this error to go unnoticed (we assume it was a // pulled config if we're not allowed to persist it) if !allowPersist && newCfg != nil && newCfg.Admin != nil && newCfg.Admin.Config != nil && newCfg.Admin.Config.LoadRaw != nil && newCfg.Admin.Config.LoadDelay <= 0 { return fmt.Errorf("recursive config loading detected: pulled configs cannot pull other configs without positive load_delay") } // run the new config and start all its apps ctx, err := run(newCfg, true) if err != nil { return err } // swap old context (including its config) with the new one currentCtxMu.Lock() oldCtx := currentCtx currentCtx = ctx currentCtxMu.Unlock() // Stop, Cleanup each old app unsyncedStop(oldCtx) // autosave a non-nil config, if not disabled if allowPersist && newCfg != nil && (newCfg.Admin == nil || newCfg.Admin.Config == nil || newCfg.Admin.Config.Persist == nil || *newCfg.Admin.Config.Persist) { dir := filepath.Dir(ConfigAutosavePath) err := os.MkdirAll(dir, 0o700) if err != nil { Log().Error("unable to create folder for config autosave", zap.String("dir", dir), zap.Error(err)) } else { err := os.WriteFile(ConfigAutosavePath, cfgJSON, 0o600) if err == nil { Log().Info("autosaved config (load with --resume flag)", zap.String("file", ConfigAutosavePath)) } else { Log().Error("unable to autosave config", zap.String("file", ConfigAutosavePath), zap.Error(err)) } } } return nil } // run runs newCfg and starts all its apps if // start is true. If any errors happen, cleanup // is performed if any modules were provisioned; // apps that were started already will be stopped, // so this function should not leak resources if // an error is returned. However, if no error is // returned and start == false, you should cancel // the config if you are not going to start it, // so that each provisioned module will be // cleaned up. // // This is a low-level function; most callers // will want to use Run instead, which also // updates the config's raw state. func run(newCfg *Config, start bool) (Context, error) { // because we will need to roll back any state // modifications if this function errors, we // keep a single error value and scope all // sub-operations to their own functions to // ensure this error value does not get // overridden or missed when it should have // been set by a short assignment var err error if newCfg == nil { newCfg = new(Config) } // create a context within which to load // modules - essentially our new config's // execution environment; be sure that // cleanup occurs when we return if there // was an error; if no error, it will get // cleaned up on next config cycle ctx, cancel := NewContext(Context{Context: context.Background(), cfg: newCfg}) defer func() { if err != nil { // if there were any errors during startup, // we should cancel the new context we created // since the associated config won't be used; // this will cause all modules that were newly // provisioned to clean themselves up cancel() // also undo any other state changes we made if currentCtx.cfg != nil { certmagic.Default.Storage = currentCtx.cfg.storage } } }() newCfg.cancelFunc = cancel // clean up later // set up logging before anything bad happens if newCfg.Logging == nil { newCfg.Logging = new(Logging) } err = newCfg.Logging.openLogs(ctx) if err != nil { return ctx, err } // start the admin endpoint (and stop any prior one) if start { err = replaceLocalAdminServer(newCfg) if err != nil { return ctx, fmt.Errorf("starting caddy administration endpoint: %v", err) } } // create the new filesystem map newCfg.filesystems = &filesystems.FilesystemMap{} // prepare the new config for use newCfg.apps = make(map[string]App) // set up global storage and make it CertMagic's default storage, too err = func() error { if newCfg.StorageRaw != nil { val, err := ctx.LoadModule(newCfg, "StorageRaw") if err != nil { return fmt.Errorf("loading storage module: %v", err) } stor, err := val.(StorageConverter).CertMagicStorage() if err != nil { return fmt.Errorf("creating storage value: %v", err) } newCfg.storage = stor } if newCfg.storage == nil { newCfg.storage = DefaultStorage } certmagic.Default.Storage = newCfg.storage return nil }() if err != nil { return ctx, err } // Load and Provision each app and their submodules err = func() error { for appName := range newCfg.AppsRaw { if _, err := ctx.App(appName); err != nil { return err } } return nil }() if err != nil { return ctx, err } if !start { return ctx, nil } // Provision any admin routers which may need to access // some of the other apps at runtime err = newCfg.Admin.provisionAdminRouters(ctx) if err != nil { return ctx, err } // Start err = func() error { started := make([]string, 0, len(newCfg.apps)) for name, a := range newCfg.apps { err := a.Start() if err != nil { // an app failed to start, so we need to stop // all other apps that were already started for _, otherAppName := range started { err2 := newCfg.apps[otherAppName].Stop() if err2 != nil { err = fmt.Errorf("%v; additionally, aborting app %s: %v", err, otherAppName, err2) } } return fmt.Errorf("%s app module: start: %v", name, err) } started = append(started, name) } return nil }() if err != nil { return ctx, err } // now that the user's config is running, finish setting up anything else, // such as remote admin endpoint, config loader, etc. return ctx, finishSettingUp(ctx, newCfg) } // finishSettingUp should be run after all apps have successfully started. func finishSettingUp(ctx Context, cfg *Config) error { // establish this server's identity (only after apps are loaded // so that cert management of this endpoint doesn't prevent user's // servers from starting which likely also use HTTP/HTTPS ports; // but before remote management which may depend on these creds) err := manageIdentity(ctx, cfg) if err != nil { return fmt.Errorf("provisioning remote admin endpoint: %v", err) } // replace any remote admin endpoint err = replaceRemoteAdminServer(ctx, cfg) if err != nil { return fmt.Errorf("provisioning remote admin endpoint: %v", err) } // if dynamic config is requested, set that up and run it if cfg != nil && cfg.Admin != nil && cfg.Admin.Config != nil && cfg.Admin.Config.LoadRaw != nil { val, err := ctx.LoadModule(cfg.Admin.Config, "LoadRaw") if err != nil { return fmt.Errorf("loading config loader module: %s", err) } logger := Log().Named("config_loader").With( zap.String("module", val.(Module).CaddyModule().ID.Name()), zap.Int("load_delay", int(cfg.Admin.Config.LoadDelay))) runLoadedConfig := func(config []byte) error { logger.Info("applying dynamically-loaded config") err := changeConfig(http.MethodPost, "/"+rawConfigKey, config, "", false) if errors.Is(err, errSameConfig) { return err } if err != nil { logger.Error("failed to run dynamically-loaded config", zap.Error(err)) return err } logger.Info("successfully applied dynamically-loaded config") return nil } if cfg.Admin.Config.LoadDelay > 0 { go func() { // the loop is here to iterate ONLY if there is an error, a no-op config load, // or an unchanged config; in which case we simply wait the delay and try again for { timer := time.NewTimer(time.Duration(cfg.Admin.Config.LoadDelay)) select { case <-timer.C: loadedConfig, err := val.(ConfigLoader).LoadConfig(ctx) if err != nil { logger.Error("failed loading dynamic config; will retry", zap.Error(err)) continue } if loadedConfig == nil { logger.Info("dynamically-loaded config was nil; will retry") continue } err = runLoadedConfig(loadedConfig) if errors.Is(err, errSameConfig) { logger.Info("dynamically-loaded config was unchanged; will retry") continue } case <-ctx.Done(): if !timer.Stop() { <-timer.C } logger.Info("stopping dynamic config loading") } break } }() } else { // if no LoadDelay is provided, will load config synchronously loadedConfig, err := val.(ConfigLoader).LoadConfig(ctx) if err != nil { return fmt.Errorf("loading dynamic config from %T: %v", val, err) } // do this in a goroutine so current config can finish being loaded; otherwise deadlock go func() { _ = runLoadedConfig(loadedConfig) }() } } return nil } // ConfigLoader is a type that can load a Caddy config. If // the return value is non-nil, it must be valid Caddy JSON; // if nil or with non-nil error, it is considered to be a // no-op load and may be retried later. type ConfigLoader interface { LoadConfig(Context) ([]byte, error) } // Stop stops running the current configuration. // It is the antithesis of Run(). This function // will log any errors that occur during the // stopping of individual apps and continue to // stop the others. Stop should only be called // if not replacing with a new config. func Stop() error { currentCtxMu.RLock() ctx := currentCtx currentCtxMu.RUnlock() rawCfgMu.Lock() unsyncedStop(ctx) currentCtxMu.Lock() currentCtx = Context{} currentCtxMu.Unlock() rawCfgJSON = nil rawCfgIndex = nil rawCfg[rawConfigKey] = nil rawCfgMu.Unlock() return nil } // unsyncedStop stops ctx from running, but has // no locking around ctx. It is a no-op if ctx has a // nil cfg. If any app returns an error when stopping, // it is logged and the function continues stopping // the next app. This function assumes all apps in // ctx were successfully started first. // // A lock on rawCfgMu is required, even though this // function does not access rawCfg, that lock // synchronizes the stop/start of apps. func unsyncedStop(ctx Context) { if ctx.cfg == nil { return } // stop each app for name, a := range ctx.cfg.apps { err := a.Stop() if err != nil { log.Printf("[ERROR] stop %s: %v", name, err) } } // clean up all modules ctx.cfg.cancelFunc() } // Validate loads, provisions, and validates // cfg, but does not start running it. func Validate(cfg *Config) error { _, err := run(cfg, false) if err == nil { cfg.cancelFunc() // call Cleanup on all modules } return err } // exitProcess exits the process as gracefully as possible, // but it always exits, even if there are errors doing so. // It stops all apps, cleans up external locks, removes any // PID file, and shuts down admin endpoint(s) in a goroutine. // Errors are logged along the way, and an appropriate exit // code is emitted. func exitProcess(ctx context.Context, logger *zap.Logger) { // let the rest of the program know we're quitting atomic.StoreInt32(exiting, 1) // give the OS or service/process manager our 2 weeks' notice: we quit if err := notify.Stopping(); err != nil { Log().Error("unable to notify service manager of stopping state", zap.Error(err)) } if logger == nil { logger = Log() } logger.Warn("exiting; byeee!! 👋") exitCode := ExitCodeSuccess lastContext := ActiveContext() // stop all apps if err := Stop(); err != nil { logger.Error("failed to stop apps", zap.Error(err)) exitCode = ExitCodeFailedQuit } // clean up certmagic locks certmagic.CleanUpOwnLocks(ctx, logger) // remove pidfile if pidfile != "" { err := os.Remove(pidfile) if err != nil { logger.Error("cleaning up PID file:", zap.String("pidfile", pidfile), zap.Error(err)) exitCode = ExitCodeFailedQuit } } // execute any process-exit callbacks for _, exitFunc := range lastContext.exitFuncs { exitFunc(ctx) } exitFuncsMu.Lock() for _, exitFunc := range exitFuncs { exitFunc(ctx) } exitFuncsMu.Unlock() // shut down admin endpoint(s) in goroutines so that // if this function was called from an admin handler, // it has a chance to return gracefully // use goroutine so that we can finish responding to API request go func() { defer func() { logger = logger.With(zap.Int("exit_code", exitCode)) if exitCode == ExitCodeSuccess { logger.Info("shutdown complete") } else { logger.Error("unclean shutdown") } os.Exit(exitCode) }() if remoteAdminServer != nil { err := stopAdminServer(remoteAdminServer) if err != nil { exitCode = ExitCodeFailedQuit logger.Error("failed to stop remote admin server gracefully", zap.Error(err)) } } if localAdminServer != nil { err := stopAdminServer(localAdminServer) if err != nil { exitCode = ExitCodeFailedQuit logger.Error("failed to stop local admin server gracefully", zap.Error(err)) } } }() } var exiting = new(int32) // accessed atomically // Exiting returns true if the process is exiting. // EXPERIMENTAL API: subject to change or removal. func Exiting() bool { return atomic.LoadInt32(exiting) == 1 } // OnExit registers a callback to invoke during process exit. // This registration is PROCESS-GLOBAL, meaning that each // function should only be registered once forever, NOT once // per config load (etc). // // EXPERIMENTAL API: subject to change or removal. func OnExit(f func(context.Context)) { exitFuncsMu.Lock() exitFuncs = append(exitFuncs, f) exitFuncsMu.Unlock() } var ( exitFuncs []func(context.Context) exitFuncsMu sync.Mutex ) // Duration can be an integer or a string. An integer is // interpreted as nanoseconds. If a string, it is a Go // time.Duration value such as `300ms`, `1.5h`, or `2h45m`; // valid units are `ns`, `us`/`µs`, `ms`, `s`, `m`, `h`, and `d`. type Duration time.Duration // UnmarshalJSON satisfies json.Unmarshaler. func (d *Duration) UnmarshalJSON(b []byte) error { if len(b) == 0 { return io.EOF } var dur time.Duration var err error if b[0] == byte('"') && b[len(b)-1] == byte('"') { dur, err = ParseDuration(strings.Trim(string(b), `"`)) } else { err = json.Unmarshal(b, &dur) } *d = Duration(dur) return err } // ParseDuration parses a duration string, adding // support for the "d" unit meaning number of days, // where a day is assumed to be 24h. The maximum // input string length is 1024. func ParseDuration(s string) (time.Duration, error) { if len(s) > 1024 { return 0, fmt.Errorf("parsing duration: input string too long") } var inNumber bool var numStart int for i := 0; i < len(s); i++ { ch := s[i] if ch == 'd' { daysStr := s[numStart:i] days, err := strconv.ParseFloat(daysStr, 64) if err != nil { return 0, err } hours := days * 24.0 hoursStr := strconv.FormatFloat(hours, 'f', -1, 64) s = s[:numStart] + hoursStr + "h" + s[i+1:] i-- continue } if !inNumber { numStart = i } inNumber = (ch >= '0' && ch <= '9') || ch == '.' || ch == '-' || ch == '+' } return time.ParseDuration(s) } // InstanceID returns the UUID for this instance, and generates one if it // does not already exist. The UUID is stored in the local data directory, // regardless of storage configuration, since each instance is intended to // have its own unique ID. func InstanceID() (uuid.UUID, error) { appDataDir := AppDataDir() uuidFilePath := filepath.Join(appDataDir, "instance.uuid") uuidFileBytes, err := os.ReadFile(uuidFilePath) if errors.Is(err, fs.ErrNotExist) { uuid, err := uuid.NewRandom() if err != nil { return uuid, err } err = os.MkdirAll(appDataDir, 0o700) if err != nil { return uuid, err } err = os.WriteFile(uuidFilePath, []byte(uuid.String()), 0o600) return uuid, err } else if err != nil { return [16]byte{}, err } return uuid.ParseBytes(uuidFileBytes) } // CustomVersion is an optional string that overrides Caddy's // reported version. It can be helpful when downstream packagers // need to manually set Caddy's version. If no other version // information is available, the short form version (see // Version()) will be set to CustomVersion, and the full version // will include CustomVersion at the beginning. // // Set this variable during `go build` with `-ldflags`: // // -ldflags '-X github.com/caddyserver/caddy/v2.CustomVersion=v2.6.2' // // for example. var CustomVersion string // Version returns the Caddy version in a simple/short form, and // a full version string. The short form will not have spaces and // is intended for User-Agent strings and similar, but may be // omitting valuable information. Note that Caddy must be compiled // in a special way to properly embed complete version information. // First this function tries to get the version from the embedded // build info provided by go.mod dependencies; then it tries to // get info from embedded VCS information, which requires having // built Caddy from a git repository. If no version is available, // this function returns "(devel)" because Go uses that, but for // the simple form we change it to "unknown". If still no version // is available (e.g. no VCS repo), then it will use CustomVersion; // CustomVersion is always prepended to the full version string. // // See relevant Go issues: https://github.com/golang/go/issues/29228 // and https://github.com/golang/go/issues/50603. // // This function is experimental and subject to change or removal. func Version() (simple, full string) { // the currently-recommended way to build Caddy involves // building it as a dependency so we can extract version // information from go.mod tooling; once the upstream // Go issues are fixed, we should just be able to use // bi.Main... hopefully. var module *debug.Module bi, ok := debug.ReadBuildInfo() if !ok { if CustomVersion != "" { full = CustomVersion simple = CustomVersion return } full = "unknown" simple = "unknown" return } // find the Caddy module in the dependency list for _, dep := range bi.Deps { if dep.Path == ImportPath { module = dep break } } if module != nil { simple, full = module.Version, module.Version if module.Sum != "" { full += " " + module.Sum } if module.Replace != nil { full += " => " + module.Replace.Path if module.Replace.Version != "" { simple = module.Replace.Version + "_custom" full += "@" + module.Replace.Version } if module.Replace.Sum != "" { full += " " + module.Replace.Sum } } } if full == "" { var vcsRevision string var vcsTime time.Time var vcsModified bool for _, setting := range bi.Settings { switch setting.Key { case "vcs.revision": vcsRevision = setting.Value case "vcs.time": vcsTime, _ = time.Parse(time.RFC3339, setting.Value) case "vcs.modified": vcsModified, _ = strconv.ParseBool(setting.Value) } } if vcsRevision != "" { var modified string if vcsModified { modified = "+modified" } full = fmt.Sprintf("%s%s (%s)", vcsRevision, modified, vcsTime.Format(time.RFC822)) simple = vcsRevision // use short checksum for simple, if hex-only if _, err := hex.DecodeString(simple); err == nil { simple = simple[:8] } // append date to simple since it can be convenient // to know the commit date as part of the version if !vcsTime.IsZero() { simple += "-" + vcsTime.Format("20060102") } } } if full == "" { if CustomVersion != "" { full = CustomVersion } else { full = "unknown" } } else if CustomVersion != "" { full = CustomVersion + " " + full } if simple == "" || simple == "(devel)" { if CustomVersion != "" { simple = CustomVersion } else { simple = "unknown" } } return } // ActiveContext returns the currently-active context. // This function is experimental and might be changed // or removed in the future. func ActiveContext() Context { currentCtxMu.RLock() defer currentCtxMu.RUnlock() return currentCtx } // CtxKey is a value type for use with context.WithValue. type CtxKey string // This group of variables pertains to the current configuration. var ( // currentCtx is the root context for the currently-running // configuration, which can be accessed through this value. // If the Config contained in this value is not nil, then // a config is currently active/running. currentCtx Context currentCtxMu sync.RWMutex // rawCfg is the current, generic-decoded configuration; // we initialize it as a map with one field ("config") // to maintain parity with the API endpoint and to avoid // the special case of having to access/mutate the variable // directly without traversing into it. rawCfg = map[string]any{ rawConfigKey: nil, } // rawCfgJSON is the JSON-encoded form of rawCfg. Keeping // this around avoids an extra Marshal call during changes. rawCfgJSON []byte // rawCfgIndex is the map of user-assigned ID to expanded // path, for converting /id/ paths to /config/ paths. rawCfgIndex map[string]string // rawCfgMu protects all the rawCfg fields and also // essentially synchronizes config changes/reloads. rawCfgMu sync.RWMutex ) // errSameConfig is returned if the new config is the same // as the old one. This isn't usually an actual, actionable // error; it's mostly a sentinel value. var errSameConfig = errors.New("config is unchanged") // ImportPath is the package import path for Caddy core. // This identifier may be removed in the future. const ImportPath = "github.com/caddyserver/caddy/v2"