package backend import ( "bytes" "fmt" "regexp" "sort" "sync" "text/template" "github.com/hashicorp/vault/logical" "github.com/mitchellh/go-wordwrap" ) // Backend is an implementation of logical.Backend that allows // the implementer to code a backend using a much more programmer-friendly // framework that handles a lot of the routing and validation for you. // // This is recommended over implementing logical.Backend directly. type Backend struct { // Paths are the various routes that the backend responds to. // This cannot be modified after construction (i.e. dynamically changing // paths, including adding or removing, is not allowed once the // backend is in use). Paths []*Path once sync.Once pathsRe []*regexp.Regexp } // Path is a single path that the backend responds to. type Path struct { // Pattern is the pattern of the URL that matches this path. // // This should be a valid regular expression. Named captures will be // exposed as fields that should map to a schema in Fields. If a named // capture is not a field in the Fields map, then it will be ignored. Pattern string // Fields is the mapping of data fields to a schema describing that // field. Named captures in the Pattern also map to fields. If a named // capture name matches a PUT body name, the named capture takes // priority. // // Note that only named capture fields are available in every operation, // whereas all fields are avaiable in the Write operation. Fields map[string]*FieldSchema // Root if not blank, denotes that this path requires root // privileges and the path pattern that is the root path. This can't // be a regular expression and must be an exact path. It may have a // trailing '*' to denote that it is a prefix, and not an exact match. Root string // Callbacks are the set of callbacks that are called for a given // operation. If a callback for a specific operation is not present, // then logical.ErrUnsupportedOperation is automatically generated. // // The help operation is the only operation that the Path will // automatically handle if the Help field is set. If both the Help // field is set and there is a callback registered here, then the // callback will be called. Callbacks map[logical.Operation]OperationFunc // Help is text describing how to use this path. This will be used // to auto-generate the help operation. The Path will automatically // generate a parameter listing and URL structure based on the // regular expression, so the help text should just contain a description // of what happens. // // HelpSynopsis is a one-sentence description of the path. This will // be automatically line-wrapped at 80 characters. // // HelpDescription is a long-form description of the path. This will // be automatically line-wrapped at 80 characters. HelpSynopsis string HelpDescription string } // OperationFunc is the callback called for an operation on a path. type OperationFunc func(*logical.Request, *FieldData) (*logical.Response, error) // logical.Backend impl. func (b *Backend) HandleRequest(req *logical.Request) (*logical.Response, error) { // Find the matching route path, captures := b.route(req.Path) if path == nil { return nil, logical.ErrUnsupportedPath } // Build up the data for the route, with the URL taking priority // for the fields over the PUT data. raw := make(map[string]interface{}, len(path.Fields)) for k, v := range req.Data { raw[k] = v } for k, v := range captures { raw[k] = v } // Look up the callback for this operation var callback OperationFunc var ok bool if path.Callbacks != nil { callback, ok = path.Callbacks[req.Operation] } if !ok { if req.Operation == logical.HelpOperation && path.HelpSynopsis != "" { callback = path.helpCallback ok = true } } if !ok { return nil, logical.ErrUnsupportedOperation } // Call the callback with the request and the data return callback(req, &FieldData{ Raw: raw, Schema: path.Fields, }) } // logical.Backend impl. func (b *Backend) RootPaths() []string { // TODO return nil } // Route looks up the path that would be used for a given path string. func (b *Backend) Route(path string) *Path { result, _ := b.route(path) return result } func (b *Backend) init() { b.pathsRe = make([]*regexp.Regexp, len(b.Paths)) for i, p := range b.Paths { b.pathsRe[i] = regexp.MustCompile(p.Pattern) } } func (b *Backend) route(path string) (*Path, map[string]string) { b.once.Do(b.init) for i, re := range b.pathsRe { matches := re.FindStringSubmatch(path) if matches == nil { continue } // We have a match, determine the mapping of the captures and // store that for returning. var captures map[string]string path := b.Paths[i] if captureNames := re.SubexpNames(); len(captureNames) > 1 { captures = make(map[string]string, len(captureNames)) for i, name := range captureNames { if name != "" { captures[name] = matches[i] } } } return path, captures } return nil, nil } func (p *Path) helpCallback(req *logical.Request, data *FieldData) (*logical.Response, error) { var tplData pathTemplateData tplData.Request = req.Path tplData.RoutePattern = p.Pattern tplData.Synopsis = wordwrap.WrapString(p.HelpSynopsis, 80) tplData.Description = wordwrap.WrapString(p.HelpDescription, 80) // Alphabetize the fields fieldKeys := make([]string, 0, len(p.Fields)) for k, _ := range p.Fields { fieldKeys = append(fieldKeys, k) } sort.Strings(fieldKeys) // Build the field help tplData.Fields = make([]pathTemplateFieldData, len(fieldKeys)) for i, k := range fieldKeys { schema := p.Fields[k] description := wordwrap.WrapString(schema.Description, 60) if description == "" { description = "" } tplData.Fields[i] = pathTemplateFieldData{ Key: k, Type: schema.Type.String(), Description: description, } } // Parse the help template tpl, err := template.New("root").Parse(pathHelpTemplate) if err != nil { return nil, fmt.Errorf("error parsing template: %s", err) } // Execute the template and store the output var buf bytes.Buffer if err := tpl.Execute(&buf, &tplData); err != nil { return nil, fmt.Errorf("error executing template: %s", err) } return logical.HelpResponse(buf.String(), nil), nil } // FieldSchema is a basic schema to describe the format of a path field. type FieldSchema struct { Type FieldType Default interface{} Description string } // DefaultOrZero returns the default value if it is set, or otherwise // the zero value of the type. func (s *FieldSchema) DefaultOrZero() interface{} { if s.Default != nil { return s.Default } return s.Type.Zero() } func (t FieldType) Zero() interface{} { switch t { case TypeString: return "" case TypeInt: return 0 case TypeBool: return false default: panic("unknown type: " + t.String()) } } type pathTemplateData struct { Request string RoutePattern string Synopsis string Description string Fields []pathTemplateFieldData } type pathTemplateFieldData struct { Key string Type string Description string URL bool } const pathHelpTemplate = ` Request: {{.Request}} Matching Route: {{.RoutePattern}} {{.Synopsis}} ## Parameters {{range .Fields}} ### {{.Key}} (type: {{.Type}}) {{.Description}} {{end}} ## Description {{.Description}} `