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moby--moby/builder/parser/line_parsers.go

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package 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"
"strconv"
"strings"
)
var (
errDockerfileJSONNesting = errors.New("You may not nest arrays in Dockerfile statements.")
)
// ignore the current argument. This will still leave a command parsed, but
// will not incorporate the arguments into the ast.
func parseIgnore(rest string) (*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) (*Node, map[string]bool, error) {
_, child, err := parseLine(rest)
if err != nil {
return nil, nil, err
}
return &Node{Children: []*Node{child}}, nil, nil
}
// parse environment like statements. Note that this does *not* handle
// variable interpolation, which will be handled in the evaluator.
func parseEnv(rest string) (*Node, map[string]bool, error) {
node := &Node{}
rootnode := node
strs := TOKEN_WHITESPACE.Split(rest, 2)
if len(strs) < 2 {
return nil, nil, fmt.Errorf("ENV must have two arguments")
}
node.Value = strs[0]
node.Next = &Node{}
node.Next.Value = strs[1]
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) (*Node, map[string]bool, error) {
node := &Node{}
rootnode := node
prevnode := node
for _, str := range TOKEN_WHITESPACE.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) (*Node, map[string]bool, error) {
n := &Node{}
n.Value = rest
return n, nil, nil
}
// parseJSON converts JSON arrays to an AST.
func parseJSON(rest string) (*Node, map[string]bool, error) {
var (
myJson []interface{}
next = &Node{}
orignext = next
prevnode = next
)
if err := json.Unmarshal([]byte(rest), &myJson); err != nil {
return nil, nil, err
}
for _, str := range myJson {
switch str.(type) {
case string:
case float64:
str = strconv.FormatFloat(str.(float64), 'G', -1, 64)
default:
return nil, nil, errDockerfileJSONNesting
}
next.Value = str.(string)
next.Next = &Node{}
prevnode = next
next = next.Next
}
prevnode.Next = nil
return orignext, 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) (*Node, map[string]bool, error) {
rest = strings.TrimSpace(rest)
node, attrs, err := parseJSON(rest)
if err == nil {
return node, attrs, nil
}
if err == errDockerfileJSONNesting {
return nil, nil, err
}
node = &Node{}
node.Value = rest
return node, nil, nil
}