package instructions import ( "fmt" "regexp" "sort" "strconv" "strings" "time" "github.com/docker/docker/api/types/container" "github.com/docker/docker/api/types/strslice" "github.com/docker/docker/builder/dockerfile/command" "github.com/docker/docker/builder/dockerfile/parser" "github.com/pkg/errors" ) type parseRequest struct { command string args []string attributes map[string]bool flags *BFlags original string } func nodeArgs(node *parser.Node) []string { result := []string{} for ; node.Next != nil; node = node.Next { arg := node.Next if len(arg.Children) == 0 { result = append(result, arg.Value) } else if len(arg.Children) == 1 { //sub command result = append(result, arg.Children[0].Value) result = append(result, nodeArgs(arg.Children[0])...) } } return result } func newParseRequestFromNode(node *parser.Node) parseRequest { return parseRequest{ command: node.Value, args: nodeArgs(node), attributes: node.Attributes, original: node.Original, flags: NewBFlagsWithArgs(node.Flags), } } // ParseInstruction converts an AST to a typed instruction (either a command or a build stage beginning when encountering a `FROM` statement) func ParseInstruction(node *parser.Node) (interface{}, error) { req := newParseRequestFromNode(node) switch node.Value { case command.Env: return parseEnv(req) case command.Maintainer: return parseMaintainer(req) case command.Label: return parseLabel(req) case command.Add: return parseAdd(req) case command.Copy: return parseCopy(req) case command.From: return parseFrom(req) case command.Onbuild: return parseOnBuild(req) case command.Workdir: return parseWorkdir(req) case command.Run: return parseRun(req) case command.Cmd: return parseCmd(req) case command.Healthcheck: return parseHealthcheck(req) case command.Entrypoint: return parseEntrypoint(req) case command.Expose: return parseExpose(req) case command.User: return parseUser(req) case command.Volume: return parseVolume(req) case command.StopSignal: return parseStopSignal(req) case command.Arg: return parseArg(req) case command.Shell: return parseShell(req) } return nil, &UnknownInstruction{Instruction: node.Value, Line: node.StartLine} } // ParseCommand converts an AST to a typed Command func ParseCommand(node *parser.Node) (Command, error) { s, err := ParseInstruction(node) if err != nil { return nil, err } if c, ok := s.(Command); ok { return c, nil } return nil, errors.Errorf("%T is not a command type", s) } // UnknownInstruction represents an error occurring when a command is unresolvable type UnknownInstruction struct { Line int Instruction string } func (e *UnknownInstruction) Error() string { return fmt.Sprintf("unknown instruction: %s", strings.ToUpper(e.Instruction)) } // IsUnknownInstruction checks if the error is an UnknownInstruction or a parseError containing an UnknownInstruction func IsUnknownInstruction(err error) bool { _, ok := err.(*UnknownInstruction) if !ok { var pe *parseError if pe, ok = err.(*parseError); ok { _, ok = pe.inner.(*UnknownInstruction) } } return ok } type parseError struct { inner error node *parser.Node } func (e *parseError) Error() string { return fmt.Sprintf("Dockerfile parse error line %d: %v", e.node.StartLine, e.inner.Error()) } // Parse a docker file into a collection of buildable stages func Parse(ast *parser.Node) (stages []Stage, metaArgs []ArgCommand, err error) { for _, n := range ast.Children { cmd, err := ParseInstruction(n) if err != nil { return nil, nil, &parseError{inner: err, node: n} } if len(stages) == 0 { // meta arg case if a, isArg := cmd.(*ArgCommand); isArg { metaArgs = append(metaArgs, *a) continue } } switch c := cmd.(type) { case *Stage: stages = append(stages, *c) case Command: stage, err := CurrentStage(stages) if err != nil { return nil, nil, err } stage.AddCommand(c) default: return nil, nil, errors.Errorf("%T is not a command type", cmd) } } return stages, metaArgs, nil } func parseKvps(args []string, cmdName string) (KeyValuePairs, error) { if len(args) == 0 { return nil, errAtLeastOneArgument(cmdName) } if len(args)%2 != 0 { // should never get here, but just in case return nil, errTooManyArguments(cmdName) } var res KeyValuePairs for j := 0; j < len(args); j += 2 { if len(args[j]) == 0 { return nil, errBlankCommandNames(cmdName) } name := args[j] value := args[j+1] res = append(res, KeyValuePair{Key: name, Value: value}) } return res, nil } func parseEnv(req parseRequest) (*EnvCommand, error) { if err := req.flags.Parse(); err != nil { return nil, err } envs, err := parseKvps(req.args, "ENV") if err != nil { return nil, err } return &EnvCommand{ Env: envs, withNameAndCode: newWithNameAndCode(req), }, nil } func parseMaintainer(req parseRequest) (*MaintainerCommand, error) { if len(req.args) != 1 { return nil, errExactlyOneArgument("MAINTAINER") } if err := req.flags.Parse(); err != nil { return nil, err } return &MaintainerCommand{ Maintainer: req.args[0], withNameAndCode: newWithNameAndCode(req), }, nil } func parseLabel(req parseRequest) (*LabelCommand, error) { if err := req.flags.Parse(); err != nil { return nil, err } labels, err := parseKvps(req.args, "LABEL") if err != nil { return nil, err } return &LabelCommand{ Labels: labels, withNameAndCode: newWithNameAndCode(req), }, nil } func parseAdd(req parseRequest) (*AddCommand, error) { if len(req.args) < 2 { return nil, errNoDestinationArgument("ADD") } flChown := req.flags.AddString("chown", "") if err := req.flags.Parse(); err != nil { return nil, err } return &AddCommand{ SourcesAndDest: SourcesAndDest(req.args), withNameAndCode: newWithNameAndCode(req), Chown: flChown.Value, }, nil } func parseCopy(req parseRequest) (*CopyCommand, error) { if len(req.args) < 2 { return nil, errNoDestinationArgument("COPY") } flChown := req.flags.AddString("chown", "") flFrom := req.flags.AddString("from", "") if err := req.flags.Parse(); err != nil { return nil, err } return &CopyCommand{ SourcesAndDest: SourcesAndDest(req.args), From: flFrom.Value, withNameAndCode: newWithNameAndCode(req), Chown: flChown.Value, }, nil } func parseFrom(req parseRequest) (*Stage, error) { stageName, err := parseBuildStageName(req.args) if err != nil { return nil, err } if err := req.flags.Parse(); err != nil { return nil, err } code := strings.TrimSpace(req.original) return &Stage{ BaseName: req.args[0], Name: stageName, SourceCode: code, Commands: []Command{}, }, nil } func parseBuildStageName(args []string) (string, error) { stageName := "" switch { case len(args) == 3 && strings.EqualFold(args[1], "as"): stageName = strings.ToLower(args[2]) if ok, _ := regexp.MatchString("^[a-z][a-z0-9-_\\.]*$", stageName); !ok { return "", errors.Errorf("invalid name for build stage: %q, name can't start with a number or contain symbols", stageName) } case len(args) != 1: return "", errors.New("FROM requires either one or three arguments") } return stageName, nil } func parseOnBuild(req parseRequest) (*OnbuildCommand, error) { if len(req.args) == 0 { return nil, errAtLeastOneArgument("ONBUILD") } if err := req.flags.Parse(); err != nil { return nil, err } triggerInstruction := strings.ToUpper(strings.TrimSpace(req.args[0])) switch strings.ToUpper(triggerInstruction) { case "ONBUILD": return nil, errors.New("Chaining ONBUILD via `ONBUILD ONBUILD` isn't allowed") case "MAINTAINER", "FROM": return nil, fmt.Errorf("%s isn't allowed as an ONBUILD trigger", triggerInstruction) } original := regexp.MustCompile(`(?i)^\s*ONBUILD\s*`).ReplaceAllString(req.original, "") return &OnbuildCommand{ Expression: original, withNameAndCode: newWithNameAndCode(req), }, nil } func parseWorkdir(req parseRequest) (*WorkdirCommand, error) { if len(req.args) != 1 { return nil, errExactlyOneArgument("WORKDIR") } err := req.flags.Parse() if err != nil { return nil, err } return &WorkdirCommand{ Path: req.args[0], withNameAndCode: newWithNameAndCode(req), }, nil } func parseShellDependentCommand(req parseRequest, emptyAsNil bool) ShellDependantCmdLine { args := handleJSONArgs(req.args, req.attributes) cmd := strslice.StrSlice(args) if emptyAsNil && len(cmd) == 0 { cmd = nil } return ShellDependantCmdLine{ CmdLine: cmd, PrependShell: !req.attributes["json"], } } func parseRun(req parseRequest) (*RunCommand, error) { if err := req.flags.Parse(); err != nil { return nil, err } return &RunCommand{ ShellDependantCmdLine: parseShellDependentCommand(req, false), withNameAndCode: newWithNameAndCode(req), }, nil } func parseCmd(req parseRequest) (*CmdCommand, error) { if err := req.flags.Parse(); err != nil { return nil, err } return &CmdCommand{ ShellDependantCmdLine: parseShellDependentCommand(req, false), withNameAndCode: newWithNameAndCode(req), }, nil } func parseEntrypoint(req parseRequest) (*EntrypointCommand, error) { if err := req.flags.Parse(); err != nil { return nil, err } cmd := &EntrypointCommand{ ShellDependantCmdLine: parseShellDependentCommand(req, true), withNameAndCode: newWithNameAndCode(req), } return cmd, nil } // parseOptInterval(flag) is the duration of flag.Value, or 0 if // empty. An error is reported if the value is given and less than minimum duration. func parseOptInterval(f *Flag) (time.Duration, error) { s := f.Value if s == "" { return 0, nil } d, err := time.ParseDuration(s) if err != nil { return 0, err } if d < container.MinimumDuration { return 0, fmt.Errorf("Interval %#v cannot be less than %s", f.name, container.MinimumDuration) } return d, nil } func parseHealthcheck(req parseRequest) (*HealthCheckCommand, error) { if len(req.args) == 0 { return nil, errAtLeastOneArgument("HEALTHCHECK") } cmd := &HealthCheckCommand{ withNameAndCode: newWithNameAndCode(req), } typ := strings.ToUpper(req.args[0]) args := req.args[1:] if typ == "NONE" { if len(args) != 0 { return nil, errors.New("HEALTHCHECK NONE takes no arguments") } test := strslice.StrSlice{typ} cmd.Health = &container.HealthConfig{ Test: test, } } else { healthcheck := container.HealthConfig{} flInterval := req.flags.AddString("interval", "") flTimeout := req.flags.AddString("timeout", "") flStartPeriod := req.flags.AddString("start-period", "") flRetries := req.flags.AddString("retries", "") if err := req.flags.Parse(); err != nil { return nil, err } switch typ { case "CMD": cmdSlice := handleJSONArgs(args, req.attributes) if len(cmdSlice) == 0 { return nil, errors.New("Missing command after HEALTHCHECK CMD") } if !req.attributes["json"] { typ = "CMD-SHELL" } healthcheck.Test = strslice.StrSlice(append([]string{typ}, cmdSlice...)) default: return nil, fmt.Errorf("Unknown type %#v in HEALTHCHECK (try CMD)", typ) } interval, err := parseOptInterval(flInterval) if err != nil { return nil, err } healthcheck.Interval = interval timeout, err := parseOptInterval(flTimeout) if err != nil { return nil, err } healthcheck.Timeout = timeout startPeriod, err := parseOptInterval(flStartPeriod) if err != nil { return nil, err } healthcheck.StartPeriod = startPeriod if flRetries.Value != "" { retries, err := strconv.ParseInt(flRetries.Value, 10, 32) if err != nil { return nil, err } if retries < 1 { return nil, fmt.Errorf("--retries must be at least 1 (not %d)", retries) } healthcheck.Retries = int(retries) } else { healthcheck.Retries = 0 } cmd.Health = &healthcheck } return cmd, nil } func parseExpose(req parseRequest) (*ExposeCommand, error) { portsTab := req.args if len(req.args) == 0 { return nil, errAtLeastOneArgument("EXPOSE") } if err := req.flags.Parse(); err != nil { return nil, err } sort.Strings(portsTab) return &ExposeCommand{ Ports: portsTab, withNameAndCode: newWithNameAndCode(req), }, nil } func parseUser(req parseRequest) (*UserCommand, error) { if len(req.args) != 1 { return nil, errExactlyOneArgument("USER") } if err := req.flags.Parse(); err != nil { return nil, err } return &UserCommand{ User: req.args[0], withNameAndCode: newWithNameAndCode(req), }, nil } func parseVolume(req parseRequest) (*VolumeCommand, error) { if len(req.args) == 0 { return nil, errAtLeastOneArgument("VOLUME") } if err := req.flags.Parse(); err != nil { return nil, err } cmd := &VolumeCommand{ withNameAndCode: newWithNameAndCode(req), } for _, v := range req.args { v = strings.TrimSpace(v) if v == "" { return nil, errors.New("VOLUME specified can not be an empty string") } cmd.Volumes = append(cmd.Volumes, v) } return cmd, nil } func parseStopSignal(req parseRequest) (*StopSignalCommand, error) { if len(req.args) != 1 { return nil, errExactlyOneArgument("STOPSIGNAL") } sig := req.args[0] cmd := &StopSignalCommand{ Signal: sig, withNameAndCode: newWithNameAndCode(req), } return cmd, nil } func parseArg(req parseRequest) (*ArgCommand, error) { if len(req.args) != 1 { return nil, errExactlyOneArgument("ARG") } var ( name string newValue *string ) arg := req.args[0] // 'arg' can just be a name or name-value pair. Note that this is different // from 'env' that handles the split of name and value at the parser level. // The reason for doing it differently for 'arg' is that we support just // defining an arg and not assign it a value (while 'env' always expects a // name-value pair). If possible, it will be good to harmonize the two. if strings.Contains(arg, "=") { parts := strings.SplitN(arg, "=", 2) if len(parts[0]) == 0 { return nil, errBlankCommandNames("ARG") } name = parts[0] newValue = &parts[1] } else { name = arg } return &ArgCommand{ Key: name, Value: newValue, withNameAndCode: newWithNameAndCode(req), }, nil } func parseShell(req parseRequest) (*ShellCommand, error) { if err := req.flags.Parse(); err != nil { return nil, err } shellSlice := handleJSONArgs(req.args, req.attributes) switch { case len(shellSlice) == 0: // SHELL [] return nil, errAtLeastOneArgument("SHELL") case req.attributes["json"]: // SHELL ["powershell", "-command"] return &ShellCommand{ Shell: strslice.StrSlice(shellSlice), withNameAndCode: newWithNameAndCode(req), }, nil default: // SHELL powershell -command - not JSON return nil, errNotJSON("SHELL", req.original) } } func errAtLeastOneArgument(command string) error { return errors.Errorf("%s requires at least one argument", command) } func errExactlyOneArgument(command string) error { return errors.Errorf("%s requires exactly one argument", command) } func errNoDestinationArgument(command string) error { return errors.Errorf("%s requires at least two arguments, but only one was provided. Destination could not be determined.", command) } func errBlankCommandNames(command string) error { return errors.Errorf("%s names can not be blank", command) } func errTooManyArguments(command string) error { return errors.Errorf("Bad input to %s, too many arguments", command) }