package checker import ( "fmt" "io/ioutil" "log" "plugin" "strings" ) // CreateRegistry creates an empty type registry // - if loadDir is True if will load all available types // inside the local ./types folder func CreateRegistry(loadDir ...string) *Registry { /* (1) Create registry */ reg := &Registry{ Types: make([]Type, 0), } /* (2) If no default to use -> empty registry */ if len(loadDir) < 1 { return reg } /* (3) List types */ plugins, err := ioutil.ReadDir(loadDir[0]) if err != nil { log.Fatal(err) } /* (4) Else try to load each given default */ for _, file := range plugins { // ignore non .so files if !strings.HasSuffix(file.Name(), ".so") { continue } err := reg.Add(file.Name()) if err != nil { log.Fatalf("Cannot load plugin '%s'", file.Name()) } } return reg } // Add adds a type to the registry; it must be a // valid and existing plugin name with or without the .so extension // it must be located in the relative directory ./types func (reg *Registry) Add(pluginName string) error { /* (1) Check plugin name */ if len(pluginName) < 1 { return fmt.Errorf("Plugin name must not be empty") } /* (2) Check if valid plugin name */ if strings.ContainsAny(pluginName, "/") { return fmt.Errorf("'%s' can only be a name, not a path", pluginName) } /* (3) Check plugin extension */ if !strings.HasSuffix(pluginName, ".so") { pluginName = fmt.Sprintf("%s.so", pluginName) } /* (4) Try to load the plugin */ p, err := plugin.Open(fmt.Sprintf(".build/type/%s", pluginName)) if err != nil { return err } /* (5) Export wanted properties */ matcher, err := p.Lookup("Match") if err != nil { return fmt.Errorf("Missing method 'Match()'; %s", err) } checker, err := p.Lookup("Check") if err != nil { return fmt.Errorf("Missing method 'Check()'; %s", err) } /* (6) Cast Match+Check */ matcherCast, ok := matcher.(func(string) bool) if !ok { return fmt.Errorf("Match() is malformed") } checkerCast, ok := checker.(func(interface{}) bool) if !ok { return fmt.Errorf("Check() is malformed") } /* (7) Add type to registry */ reg.Types = append(reg.Types, Type{ Match: matcherCast, Check: checkerCast, }) return nil } // Run finds a type checker from the registry matching the type @typeName // and uses this checker to check the @value. If no type checker matches // the @typeName name, error is returned by default. func (reg Registry) Run(typeName string, value interface{}) error { var T *Type /* (1) Iterate to find matching type (take first) */ for _, t := range reg.Types { // stop if found if t.Match(typeName) { T = &t break } } /* (2) Abort if no matching type */ if T == nil { return fmt.Errorf("No matching type") } /* (3) Check */ if !T.Check(value) { return fmt.Errorf("Does not match") } return nil }