// Package parser implements a parser and parse tree dumper for Dockerfiles. package parser import ( "bufio" "io" "regexp" "strings" "unicode" "github.com/docker/docker/builder/dockerfile/command" ) // Node is a structure used to represent a parse tree. // // In the node there are three fields, Value, Next, and Children. Value is the // current token's string value. Next is always the next non-child token, and // children contains all the children. Here's an example: // // (value next (child child-next child-next-next) next-next) // // This data structure is frankly pretty lousy for handling complex languages, // but lucky for us the Dockerfile isn't very complicated. This structure // works a little more effectively than a "proper" parse tree for our needs. // type Node struct { Value string // actual content Next *Node // the next item in the current sexp Children []*Node // the children of this sexp Attributes map[string]bool // special attributes for this node Original string // original line used before parsing Flags []string // only top Node should have this set StartLine int // the line in the original dockerfile where the node begins EndLine int // the line in the original dockerfile where the node ends } var ( dispatch map[string]func(string) (*Node, map[string]bool, error) tokenWhitespace = regexp.MustCompile(`[\t\v\f\r ]+`) tokenLineContinuation = regexp.MustCompile(`\\[ \t]*$`) tokenComment = regexp.MustCompile(`^#.*$`) ) func init() { // Dispatch Table. see line_parsers.go for the parse functions. // The command is parsed and mapped to the line parser. The line parser // receives the arguments but not the command, and returns an AST after // reformulating the arguments according to the rules in the parser // functions. Errors are propagated up by Parse() and the resulting AST can // be incorporated directly into the existing AST as a next. dispatch = map[string]func(string) (*Node, map[string]bool, error){ command.User: parseString, command.Onbuild: parseSubCommand, command.Workdir: parseString, command.Env: parseEnv, command.Label: parseLabel, command.Maintainer: parseString, command.From: parseString, command.Add: parseMaybeJSONToList, command.Copy: parseMaybeJSONToList, command.Run: parseMaybeJSON, command.Cmd: parseMaybeJSON, command.Entrypoint: parseMaybeJSON, command.Expose: parseStringsWhitespaceDelimited, command.Volume: parseMaybeJSONToList, command.StopSignal: parseString, command.Arg: parseNameOrNameVal, } } // parse a line and return the remainder. func parseLine(line string) (string, *Node, error) { if line = stripComments(line); line == "" { return "", nil, nil } if tokenLineContinuation.MatchString(line) { line = tokenLineContinuation.ReplaceAllString(line, "") return line, nil, nil } cmd, flags, args, err := splitCommand(line) if err != nil { return "", nil, err } node := &Node{} node.Value = cmd sexp, attrs, err := fullDispatch(cmd, args) if err != nil { return "", nil, err } node.Next = sexp node.Attributes = attrs node.Original = line node.Flags = flags return "", node, nil } // Parse is the main parse routine. // It handles an io.ReadWriteCloser and returns the root of the AST. func Parse(rwc io.Reader) (*Node, error) { currentLine := 0 root := &Node{} root.StartLine = -1 scanner := bufio.NewScanner(rwc) for scanner.Scan() { scannedLine := strings.TrimLeftFunc(scanner.Text(), unicode.IsSpace) currentLine++ line, child, err := parseLine(scannedLine) if err != nil { return nil, err } startLine := currentLine if line != "" && child == nil { for scanner.Scan() { newline := scanner.Text() currentLine++ if stripComments(strings.TrimSpace(newline)) == "" { continue } line, child, err = parseLine(line + newline) if err != nil { return nil, err } if child != nil { break } } if child == nil && line != "" { line, child, err = parseLine(line) if err != nil { return nil, err } } } if child != nil { // Update the line information for the current child. child.StartLine = startLine child.EndLine = currentLine // Update the line information for the root. The starting line of the root is always the // starting line of the first child and the ending line is the ending line of the last child. if root.StartLine < 0 { root.StartLine = currentLine } root.EndLine = currentLine root.Children = append(root.Children, child) } } return root, nil }