package parser // import "github.com/docker/docker/builder/dockerfile/parser" // line parsers are dispatch calls that parse a single unit of text into a // Node object which contains the whole statement. Dockerfiles have varied // (but not usually unique, see ONBUILD for a unique example) parsing rules // per-command, and these unify the processing in a way that makes it // manageable. import ( "encoding/json" "errors" "fmt" "sort" "strings" "unicode" "unicode/utf8" "github.com/docker/docker/builder/dockerfile/command" ) var ( errDockerfileNotStringArray = errors.New("when using JSON array syntax, arrays must be comprised of strings only") ) const ( commandLabel = "LABEL" ) // ignore the current argument. This will still leave a command parsed, but // will not incorporate the arguments into the ast. func parseIgnore(rest string, d *Directive) (*Node, map[string]bool, error) { return &Node{}, nil, nil } // used for onbuild. Could potentially be used for anything that represents a // statement with sub-statements. // // ONBUILD RUN foo bar -> (onbuild (run foo bar)) // func parseSubCommand(rest string, d *Directive) (*Node, map[string]bool, error) { if rest == "" { return nil, nil, nil } child, err := newNodeFromLine(rest, d) if err != nil { return nil, nil, err } return &Node{Children: []*Node{child}}, nil, nil } // helper to parse words (i.e space delimited or quoted strings) in a statement. // The quotes are preserved as part of this function and they are stripped later // as part of processWords(). func parseWords(rest string, d *Directive) []string { const ( inSpaces = iota // looking for start of a word inWord inQuote ) words := []string{} phase := inSpaces word := "" quote := '\000' blankOK := false var ch rune var chWidth int for pos := 0; pos <= len(rest); pos += chWidth { if pos != len(rest) { ch, chWidth = utf8.DecodeRuneInString(rest[pos:]) } if phase == inSpaces { // Looking for start of word if pos == len(rest) { // end of input break } if unicode.IsSpace(ch) { // skip spaces continue } phase = inWord // found it, fall through } if (phase == inWord || phase == inQuote) && (pos == len(rest)) { if blankOK || len(word) > 0 { words = append(words, word) } break } if phase == inWord { if unicode.IsSpace(ch) { phase = inSpaces if blankOK || len(word) > 0 { words = append(words, word) } word = "" blankOK = false continue } if ch == '\'' || ch == '"' { quote = ch blankOK = true phase = inQuote } if ch == d.escapeToken { if pos+chWidth == len(rest) { continue // just skip an escape token at end of line } // If we're not quoted and we see an escape token, then always just // add the escape token plus the char to the word, even if the char // is a quote. word += string(ch) pos += chWidth ch, chWidth = utf8.DecodeRuneInString(rest[pos:]) } word += string(ch) continue } if phase == inQuote { if ch == quote { phase = inWord } // The escape token is special except for ' quotes - can't escape anything for ' if ch == d.escapeToken && quote != '\'' { if pos+chWidth == len(rest) { phase = inWord continue // just skip the escape token at end } pos += chWidth word += string(ch) ch, chWidth = utf8.DecodeRuneInString(rest[pos:]) } word += string(ch) } } return words } // parse environment like statements. Note that this does *not* handle // variable interpolation, which will be handled in the evaluator. func parseNameVal(rest string, key string, d *Directive) (*Node, error) { // This is kind of tricky because we need to support the old // variant: KEY name value // as well as the new one: KEY name=value ... // The trigger to know which one is being used will be whether we hit // a space or = first. space ==> old, "=" ==> new words := parseWords(rest, d) if len(words) == 0 { return nil, nil } // Old format (KEY name value) if !strings.Contains(words[0], "=") { parts := tokenWhitespace.Split(rest, 2) if len(parts) < 2 { return nil, fmt.Errorf(key + " must have two arguments") } return newKeyValueNode(parts[0], parts[1]), nil } var rootNode *Node var prevNode *Node for _, word := range words { if !strings.Contains(word, "=") { return nil, fmt.Errorf("Syntax error - can't find = in %q. Must be of the form: name=value", word) } parts := strings.SplitN(word, "=", 2) node := newKeyValueNode(parts[0], parts[1]) rootNode, prevNode = appendKeyValueNode(node, rootNode, prevNode) } return rootNode, nil } func newKeyValueNode(key, value string) *Node { return &Node{ Value: key, Next: &Node{Value: value}, } } func appendKeyValueNode(node, rootNode, prevNode *Node) (*Node, *Node) { if rootNode == nil { rootNode = node } if prevNode != nil { prevNode.Next = node } prevNode = node.Next return rootNode, prevNode } func parseEnv(rest string, d *Directive) (*Node, map[string]bool, error) { node, err := parseNameVal(rest, "ENV", d) return node, nil, err } func parseLabel(rest string, d *Directive) (*Node, map[string]bool, error) { node, err := parseNameVal(rest, commandLabel, d) return node, nil, err } // NodeFromLabels returns a Node for the injected labels func NodeFromLabels(labels map[string]string) *Node { keys := []string{} for key := range labels { keys = append(keys, key) } // Sort the label to have a repeatable order sort.Strings(keys) labelPairs := []string{} var rootNode *Node var prevNode *Node for _, key := range keys { value := labels[key] labelPairs = append(labelPairs, fmt.Sprintf("%q='%s'", key, value)) // Value must be single quoted to prevent env variable expansion // See https://github.com/docker/docker/issues/26027 node := newKeyValueNode(key, "'"+value+"'") rootNode, prevNode = appendKeyValueNode(node, rootNode, prevNode) } return &Node{ Value: command.Label, Original: commandLabel + " " + strings.Join(labelPairs, " "), Next: rootNode, } } // parses a statement containing one or more keyword definition(s) and/or // value assignments, like `name1 name2= name3="" name4=value`. // Note that this is a stricter format than the old format of assignment, // allowed by parseNameVal(), in a way that this only allows assignment of the // form `keyword=[]` like `name2=`, `name3=""`, and `name4=value` above. // In addition, a keyword definition alone is of the form `keyword` like `name1` // above. And the assignments `name2=` and `name3=""` are equivalent and // assign an empty value to the respective keywords. func parseNameOrNameVal(rest string, d *Directive) (*Node, map[string]bool, error) { words := parseWords(rest, d) if len(words) == 0 { return nil, nil, nil } var ( rootnode *Node prevNode *Node ) for i, word := range words { node := &Node{} node.Value = word if i == 0 { rootnode = node } else { prevNode.Next = node } prevNode = node } return rootnode, nil, nil } // parses a whitespace-delimited set of arguments. The result is effectively a // linked list of string arguments. func parseStringsWhitespaceDelimited(rest string, d *Directive) (*Node, map[string]bool, error) { if rest == "" { return nil, nil, nil } node := &Node{} rootnode := node prevnode := node for _, str := range tokenWhitespace.Split(rest, -1) { // use regexp prevnode = node node.Value = str node.Next = &Node{} node = node.Next } // XXX to get around regexp.Split *always* providing an empty string at the // end due to how our loop is constructed, nil out the last node in the // chain. prevnode.Next = nil return rootnode, nil, nil } // parseString just wraps the string in quotes and returns a working node. func parseString(rest string, d *Directive) (*Node, map[string]bool, error) { if rest == "" { return nil, nil, nil } n := &Node{} n.Value = rest return n, nil, nil } // parseJSON converts JSON arrays to an AST. func parseJSON(rest string, d *Directive) (*Node, map[string]bool, error) { rest = strings.TrimLeftFunc(rest, unicode.IsSpace) if !strings.HasPrefix(rest, "[") { return nil, nil, fmt.Errorf(`Error parsing "%s" as a JSON array`, rest) } var myJSON []interface{} if err := json.NewDecoder(strings.NewReader(rest)).Decode(&myJSON); err != nil { return nil, nil, err } var top, prev *Node for _, str := range myJSON { s, ok := str.(string) if !ok { return nil, nil, errDockerfileNotStringArray } node := &Node{Value: s} if prev == nil { top = node } else { prev.Next = node } prev = node } return top, map[string]bool{"json": true}, nil } // parseMaybeJSON determines if the argument appears to be a JSON array. If // so, passes to parseJSON; if not, quotes the result and returns a single // node. func parseMaybeJSON(rest string, d *Directive) (*Node, map[string]bool, error) { if rest == "" { return nil, nil, nil } node, attrs, err := parseJSON(rest, d) if err == nil { return node, attrs, nil } if err == errDockerfileNotStringArray { return nil, nil, err } node = &Node{} node.Value = rest return node, nil, nil } // parseMaybeJSONToList determines if the argument appears to be a JSON array. If // so, passes to parseJSON; if not, attempts to parse it as a whitespace // delimited string. func parseMaybeJSONToList(rest string, d *Directive) (*Node, map[string]bool, error) { node, attrs, err := parseJSON(rest, d) if err == nil { return node, attrs, nil } if err == errDockerfileNotStringArray { return nil, nil, err } return parseStringsWhitespaceDelimited(rest, d) } // The HEALTHCHECK command is like parseMaybeJSON, but has an extra type argument. func parseHealthConfig(rest string, d *Directive) (*Node, map[string]bool, error) { // Find end of first argument var sep int for ; sep < len(rest); sep++ { if unicode.IsSpace(rune(rest[sep])) { break } } next := sep for ; next < len(rest); next++ { if !unicode.IsSpace(rune(rest[next])) { break } } if sep == 0 { return nil, nil, nil } typ := rest[:sep] cmd, attrs, err := parseMaybeJSON(rest[next:], d) if err != nil { return nil, nil, err } return &Node{Value: typ, Next: cmd}, attrs, err }