builder/dockerfile/evaluator.go - third_party/github.com/moby/moby - Git at Google

 // Package dockerfile is the evaluation step in the Dockerfile parse/evaluate pipeline.
 //
 // It incorporates a dispatch table based on the parser.Node values (see the
 // parser package for more information) that are yielded from the parser itself.
 // Calling NewBuilder with the BuildOpts struct can be used to customize the
 // experience for execution purposes only. Parsing is controlled in the parser
 // package, and this division of responsibility should be respected.
 //
 // Please see the jump table targets for the actual invocations, most of which
 // will call out to the functions in internals.go to deal with their tasks.
 //
 // ONBUILD is a special case, which is covered in the onbuild() func in
 // dispatchers.go.
 //
 // The evaluator uses the concept of "steps", which are usually each processable
 // line in the Dockerfile. Each step is numbered and certain actions are taken
 // before and after each step, such as creating an image ID and removing temporary
 // containers and images. Note that ONBUILD creates a kinda-sorta "sub run" which
 // includes its own set of steps (usually only one of them).
 package dockerfile

 import (
 	"fmt"
 	"strings"

 	"github.com/docker/docker/builder/dockerfile/command"
 	"github.com/docker/docker/builder/dockerfile/parser"
 )

 // Environment variable interpolation will happen on these statements only.
 var replaceEnvAllowed = map[string]bool{
 	command.Env:        true,
 	command.Label:      true,
 	command.Add:        true,
 	command.Copy:       true,
 	command.Workdir:    true,
 	command.Expose:     true,
 	command.Volume:     true,
 	command.User:       true,
 	command.StopSignal: true,
 	command.Arg:        true,
 }

 // Certain commands are allowed to have their args split into more
 // words after env var replacements. Meaning:
 //   ENV foo="123 456"
 //   EXPOSE $foo
 // should result in the same thing as:
 //   EXPOSE 123 456
 // and not treat "123 456" as a single word.
 // Note that: EXPOSE "$foo" and EXPOSE $foo are not the same thing.
 // Quotes will cause it to still be treated as single word.
 var allowWordExpansion = map[string]bool{
 	command.Expose: true,
 }

 var evaluateTable map[string]func(*Builder, []string, map[string]bool, string) error

 func init() {
 	evaluateTable = map[string]func(*Builder, []string, map[string]bool, string) error{
 		command.Add:         add,
 		command.Arg:         arg,
 		command.Cmd:         cmd,
 		command.Copy:        dispatchCopy, // copy() is a go builtin
 		command.Entrypoint:  entrypoint,
 		command.Env:         env,
 		command.Expose:      expose,
 		command.From:        from,
 		command.Healthcheck: healthcheck,
 		command.Label:       label,
 		command.Maintainer:  maintainer,
 		command.Onbuild:     onbuild,
 		command.Run:         run,
 		command.Shell:       shell,
 		command.StopSignal:  stopSignal,
 		command.User:        user,
 		command.Volume:      volume,
 		command.Workdir:     workdir,
 	}
 }

 // This method is the entrypoint to all statement handling routines.
 //
 // Almost all nodes will have this structure:
 // Child[Node, Node, Node] where Child is from parser.Node.Children and each
 // node comes from parser.Node.Next. This forms a "line" with a statement and
 // arguments and we process them in this normalized form by hitting
 // evaluateTable with the leaf nodes of the command and the Builder object.
 //
 // ONBUILD is a special case; in this case the parser will emit:
 // Child[Node, Child[Node, Node...]] where the first node is the literal
 // "onbuild" and the child entrypoint is the command of the ONBUILD statement,
 // such as `RUN` in ONBUILD RUN foo. There is special case logic in here to
 // deal with that, at least until it becomes more of a general concern with new
 // features.
 func (b *Builder) dispatch(stepN int, ast *parser.Node) error {
 	cmd := ast.Value
 	upperCasedCmd := strings.ToUpper(cmd)

 	// To ensure the user is given a decent error message if the platform
 	// on which the daemon is running does not support a builder command.
 	if err := platformSupports(strings.ToLower(cmd)); err != nil {
 		return err
 	}

 	attrs := ast.Attributes
 	original := ast.Original
 	flags := ast.Flags
 	strList := []string{}
 	msg := fmt.Sprintf("Step %d : %s", stepN+1, upperCasedCmd)

 	if len(ast.Flags) > 0 {
 		msg += " " + strings.Join(ast.Flags, " ")
 	}

 	if cmd == "onbuild" {
 		if ast.Next == nil {
 			return fmt.Errorf("ONBUILD requires at least one argument")
 		}
 		ast = ast.Next.Children[0]
 		strList = append(strList, ast.Value)
 		msg += " " + ast.Value

 		if len(ast.Flags) > 0 {
 			msg += " " + strings.Join(ast.Flags, " ")
 		}

 	}

 	// count the number of nodes that we are going to traverse first
 	// so we can pre-create the argument and message array. This speeds up the
 	// allocation of those list a lot when they have a lot of arguments
 	cursor := ast
 	var n int
 	for cursor.Next != nil {
 		cursor = cursor.Next
 		n++
 	}
 	msgList := make([]string, n)

 	var i int
 	// Append the build-time args to config-environment.
 	// This allows builder config to override the variables, making the behavior similar to
 	// a shell script i.e. `ENV foo bar` overrides value of `foo` passed in build
 	// context. But `ENV foo $foo` will use the value from build context if one
 	// isn't already been defined by a previous ENV primitive.
 	// Note, we get this behavior because we know that ProcessWord() will
 	// stop on the first occurrence of a variable name and not notice
 	// a subsequent one. So, putting the buildArgs list after the Config.Env
 	// list, in 'envs', is safe.
 	envs := b.runConfig.Env
 	for key, val := range b.options.BuildArgs {
 		if !b.isBuildArgAllowed(key) {
 			// skip build-args that are not in allowed list, meaning they have
 			// not been defined by an "ARG" Dockerfile command yet.
 			// This is an error condition but only if there is no "ARG" in the entire
 			// Dockerfile, so we'll generate any necessary errors after we parsed
 			// the entire file (see 'leftoverArgs' processing in evaluator.go )
 			continue
 		}
 		envs = append(envs, fmt.Sprintf("%s=%s", key, val))
 	}
 	for ast.Next != nil {
 		ast = ast.Next
 		var str string
 		str = ast.Value
 		if replaceEnvAllowed[cmd] {
 			var err error
 			var words []string

 			if allowWordExpansion[cmd] {
 				words, err = ProcessWords(str, envs)
 				if err != nil {
 					return err
 				}
 				strList = append(strList, words...)
 			} else {
 				str, err = ProcessWord(str, envs)
 				if err != nil {
 					return err
 				}
 				strList = append(strList, str)
 			}
 		} else {
 			strList = append(strList, str)
 		}
 		msgList[i] = ast.Value
 		i++
 	}

 	msg += " " + strings.Join(msgList, " ")
 	fmt.Fprintln(b.Stdout, msg)

 	// XXX yes, we skip any cmds that are not valid; the parser should have
 	// picked these out already.
 	if f, ok := evaluateTable[cmd]; ok {
 		b.flags = NewBFlags()
 		b.flags.Args = flags
 		return f(b, strList, attrs, original)
 	}

 	return fmt.Errorf("Unknown instruction: %s", upperCasedCmd)
 }
	// Package dockerfile is the evaluation step in the Dockerfile parse/evaluate pipeline.
	//
	// It incorporates a dispatch table based on the parser.Node values (see the
	// parser package for more information) that are yielded from the parser itself.
	// Calling NewBuilder with the BuildOpts struct can be used to customize the
	// experience for execution purposes only. Parsing is controlled in the parser
	// package, and this division of responsibility should be respected.
	//
	// Please see the jump table targets for the actual invocations, most of which
	// will call out to the functions in internals.go to deal with their tasks.
	//
	// ONBUILD is a special case, which is covered in the onbuild() func in
	// dispatchers.go.
	//
	// The evaluator uses the concept of "steps", which are usually each processable
	// line in the Dockerfile. Each step is numbered and certain actions are taken
	// before and after each step, such as creating an image ID and removing temporary
	// containers and images. Note that ONBUILD creates a kinda-sorta "sub run" which
	// includes its own set of steps (usually only one of them).
	package dockerfile

	import (
	"fmt"
	"strings"

	"github.com/docker/docker/builder/dockerfile/command"
	"github.com/docker/docker/builder/dockerfile/parser"
	)

	// Environment variable interpolation will happen on these statements only.
	var replaceEnvAllowed = map[string]bool{
	command.Env: true,
	command.Label: true,
	command.Add: true,
	command.Copy: true,
	command.Workdir: true,
	command.Expose: true,
	command.Volume: true,
	command.User: true,
	command.StopSignal: true,
	command.Arg: true,
	}

	// Certain commands are allowed to have their args split into more
	// words after env var replacements. Meaning:
	// ENV foo="123 456"
	// EXPOSE $foo
	// should result in the same thing as:
	// EXPOSE 123 456
	// and not treat "123 456" as a single word.
	// Note that: EXPOSE "$foo" and EXPOSE $foo are not the same thing.
	// Quotes will cause it to still be treated as single word.
	var allowWordExpansion = map[string]bool{
	command.Expose: true,
	}

	var evaluateTable map[string]func(*Builder, []string, map[string]bool, string) error

	func init() {
	evaluateTable = map[string]func(*Builder, []string, map[string]bool, string) error{
	command.Add: add,
	command.Arg: arg,
	command.Cmd: cmd,
	command.Copy: dispatchCopy, // copy() is a go builtin
	command.Entrypoint: entrypoint,
	command.Env: env,
	command.Expose: expose,
	command.From: from,
	command.Healthcheck: healthcheck,
	command.Label: label,
	command.Maintainer: maintainer,
	command.Onbuild: onbuild,
	command.Run: run,
	command.Shell: shell,
	command.StopSignal: stopSignal,
	command.User: user,
	command.Volume: volume,
	command.Workdir: workdir,
	}
	}

	// This method is the entrypoint to all statement handling routines.
	//
	// Almost all nodes will have this structure:
	// Child[Node, Node, Node] where Child is from parser.Node.Children and each
	// node comes from parser.Node.Next. This forms a "line" with a statement and
	// arguments and we process them in this normalized form by hitting
	// evaluateTable with the leaf nodes of the command and the Builder object.
	//
	// ONBUILD is a special case; in this case the parser will emit:
	// Child[Node, Child[Node, Node...]] where the first node is the literal
	// "onbuild" and the child entrypoint is the command of the ONBUILD statement,
	// such as `RUN` in ONBUILD RUN foo. There is special case logic in here to
	// deal with that, at least until it becomes more of a general concern with new
	// features.
	func (b Builder) dispatch(stepN int, ast parser.Node) error {
	cmd := ast.Value
	upperCasedCmd := strings.ToUpper(cmd)

	// To ensure the user is given a decent error message if the platform
	// on which the daemon is running does not support a builder command.
	if err := platformSupports(strings.ToLower(cmd)); err != nil {
	return err
	}

	attrs := ast.Attributes
	original := ast.Original
	flags := ast.Flags
	strList := []string{}
	msg := fmt.Sprintf("Step %d : %s", stepN+1, upperCasedCmd)

	if len(ast.Flags) > 0 {
	msg += " " + strings.Join(ast.Flags, " ")
	}

	if cmd == "onbuild" {
	if ast.Next == nil {
	return fmt.Errorf("ONBUILD requires at least one argument")
	}
	ast = ast.Next.Children[0]
	strList = append(strList, ast.Value)
	msg += " " + ast.Value

	if len(ast.Flags) > 0 {
	msg += " " + strings.Join(ast.Flags, " ")
	}

	}

	// count the number of nodes that we are going to traverse first
	// so we can pre-create the argument and message array. This speeds up the
	// allocation of those list a lot when they have a lot of arguments
	cursor := ast
	var n int
	for cursor.Next != nil {
	cursor = cursor.Next
	n++
	}
	msgList := make([]string, n)

	var i int
	// Append the build-time args to config-environment.
	// This allows builder config to override the variables, making the behavior similar to
	// a shell script i.e. `ENV foo bar` overrides value of `foo` passed in build
	// context. But `ENV foo $foo` will use the value from build context if one
	// isn't already been defined by a previous ENV primitive.
	// Note, we get this behavior because we know that ProcessWord() will
	// stop on the first occurrence of a variable name and not notice
	// a subsequent one. So, putting the buildArgs list after the Config.Env
	// list, in 'envs', is safe.
	envs := b.runConfig.Env
	for key, val := range b.options.BuildArgs {
	if !b.isBuildArgAllowed(key) {
	// skip build-args that are not in allowed list, meaning they have
	// not been defined by an "ARG" Dockerfile command yet.
	// This is an error condition but only if there is no "ARG" in the entire
	// Dockerfile, so we'll generate any necessary errors after we parsed
	// the entire file (see 'leftoverArgs' processing in evaluator.go )
	continue
	}
	envs = append(envs, fmt.Sprintf("%s=%s", key, val))
	}
	for ast.Next != nil {
	ast = ast.Next
	var str string
	str = ast.Value
	if replaceEnvAllowed[cmd] {
	var err error
	var words []string

	if allowWordExpansion[cmd] {
	words, err = ProcessWords(str, envs)
	if err != nil {
	return err
	}
	strList = append(strList, words...)
	} else {
	str, err = ProcessWord(str, envs)
	if err != nil {
	return err
	}
	strList = append(strList, str)
	}
	} else {
	strList = append(strList, str)
	}
	msgList[i] = ast.Value
	i++
	}

	msg += " " + strings.Join(msgList, " ")
	fmt.Fprintln(b.Stdout, msg)

	// XXX yes, we skip any cmds that are not valid; the parser should have
	// picked these out already.
	if f, ok := evaluateTable[cmd]; ok {
	b.flags = NewBFlags()
	b.flags.Args = flags
	return f(b, strList, attrs, original)
	}

	return fmt.Errorf("Unknown instruction: %s", upperCasedCmd)
	}