// 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 ( "bytes" "fmt" "strings" "github.com/docker/docker/api/types/container" "github.com/docker/docker/builder" "github.com/docker/docker/builder/dockerfile/command" "github.com/docker/docker/builder/dockerfile/parser" "github.com/docker/docker/pkg/system" "github.com/docker/docker/runconfig/opts" "github.com/pkg/errors" ) // 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, } type dispatchRequest struct { builder *Builder // TODO: replace this with a smaller interface args []string attributes map[string]bool flags *BFlags original string shlex *ShellLex state *dispatchState source builder.Source } func newDispatchRequestFromOptions(options dispatchOptions, builder *Builder, args []string) dispatchRequest { return dispatchRequest{ builder: builder, args: args, attributes: options.node.Attributes, original: options.node.Original, flags: NewBFlagsWithArgs(options.node.Flags), shlex: options.shlex, state: options.state, source: options.source, } } type dispatcher func(dispatchRequest) error var evaluateTable map[string]dispatcher func init() { evaluateTable = map[string]dispatcher{ 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, } } func formatStep(stepN int, stepTotal int) string { return fmt.Sprintf("%d/%d", stepN+1, stepTotal) } // 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(options dispatchOptions) (*dispatchState, error) { node := options.node cmd := node.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 { buildsFailed.WithValues(metricsCommandNotSupportedError).Inc() return nil, err } msg := bytes.NewBufferString(fmt.Sprintf("Step %s : %s%s", options.stepMsg, upperCasedCmd, formatFlags(node.Flags))) args := []string{} ast := node if cmd == command.Onbuild { var err error ast, args, err = handleOnBuildNode(node, msg) if err != nil { return nil, err } } runConfigEnv := options.state.runConfig.Env envs := append(runConfigEnv, b.buildArgs.FilterAllowed(runConfigEnv)...) processFunc := createProcessWordFunc(options.shlex, cmd, envs) words, err := getDispatchArgsFromNode(ast, processFunc, msg) if err != nil { buildsFailed.WithValues(metricsErrorProcessingCommandsError).Inc() return nil, err } args = append(args, words...) fmt.Fprintln(b.Stdout, msg.String()) f, ok := evaluateTable[cmd] if !ok { buildsFailed.WithValues(metricsUnknownInstructionError).Inc() return nil, fmt.Errorf("unknown instruction: %s", upperCasedCmd) } if err := f(newDispatchRequestFromOptions(options, b, args)); err != nil { return nil, err } options.state.updateRunConfig() return options.state, nil } type dispatchOptions struct { state *dispatchState stepMsg string node *parser.Node shlex *ShellLex source builder.Source } // dispatchState is a data object which is modified by dispatchers type dispatchState struct { runConfig *container.Config maintainer string cmdSet bool imageID string baseImage builder.Image stageName string } func newDispatchState() *dispatchState { return &dispatchState{runConfig: &container.Config{}} } func (s *dispatchState) updateRunConfig() { s.runConfig.Image = s.imageID } // hasFromImage returns true if the builder has processed a `FROM ` line func (s *dispatchState) hasFromImage() bool { return s.imageID != "" || (s.baseImage != nil && s.baseImage.ImageID() == "") } func (s *dispatchState) isCurrentStage(target string) bool { if target == "" { return false } return strings.EqualFold(s.stageName, target) } func (s *dispatchState) beginStage(stageName string, image builder.Image) { s.stageName = stageName s.imageID = image.ImageID() if image.RunConfig() != nil { s.runConfig = image.RunConfig() } else { s.runConfig = &container.Config{} } s.baseImage = image s.setDefaultPath() } // Add the default PATH to runConfig.ENV if one exists for the platform and there // is no PATH set. Note that windows won't have one as it's set by HCS func (s *dispatchState) setDefaultPath() { if system.DefaultPathEnv == "" { return } envMap := opts.ConvertKVStringsToMap(s.runConfig.Env) if _, ok := envMap["PATH"]; !ok { s.runConfig.Env = append(s.runConfig.Env, "PATH="+system.DefaultPathEnv) } } func handleOnBuildNode(ast *parser.Node, msg *bytes.Buffer) (*parser.Node, []string, error) { if ast.Next == nil { return nil, nil, errors.New("ONBUILD requires at least one argument") } ast = ast.Next.Children[0] msg.WriteString(" " + ast.Value + formatFlags(ast.Flags)) return ast, []string{ast.Value}, nil } func formatFlags(flags []string) string { if len(flags) > 0 { return " " + strings.Join(flags, " ") } return "" } func getDispatchArgsFromNode(ast *parser.Node, processFunc processWordFunc, msg *bytes.Buffer) ([]string, error) { args := []string{} for i := 0; ast.Next != nil; i++ { ast = ast.Next words, err := processFunc(ast.Value) if err != nil { return nil, err } args = append(args, words...) msg.WriteString(" " + ast.Value) } return args, nil } type processWordFunc func(string) ([]string, error) func createProcessWordFunc(shlex *ShellLex, cmd string, envs []string) processWordFunc { switch { case !replaceEnvAllowed[cmd]: return func(word string) ([]string, error) { return []string{word}, nil } case allowWordExpansion[cmd]: return func(word string) ([]string, error) { return shlex.ProcessWords(word, envs) } default: return func(word string) ([]string, error) { word, err := shlex.ProcessWord(word, envs) return []string{word}, err } } } // checkDispatch does a simple check for syntax errors of the Dockerfile. // Because some of the instructions can only be validated through runtime, // arg, env, etc., this syntax check will not be complete and could not replace // the runtime check. Instead, this function is only a helper that allows // user to find out the obvious error in Dockerfile earlier on. func checkDispatch(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 } // The instruction itself is ONBUILD, we will make sure it follows with at // least one argument if upperCasedCmd == "ONBUILD" { if ast.Next == nil { buildsFailed.WithValues(metricsMissingOnbuildArgumentsError).Inc() return errors.New("ONBUILD requires at least one argument") } } if _, ok := evaluateTable[cmd]; ok { return nil } buildsFailed.WithValues(metricsUnknownInstructionError).Inc() return errors.Errorf("unknown instruction: %s", upperCasedCmd) }