package imagebuilder // This file contains the dispatchers for each command. Note that // `nullDispatch` is not actually a command, but support for commands we parse // but do nothing with. // // See evaluator.go for a higher level discussion of the whole evaluator // package. import ( "flag" "fmt" "os" "path/filepath" "regexp" "runtime" "strconv" "strings" docker "github.com/fsouza/go-dockerclient" "github.com/openshift/imagebuilder/signal" "github.com/openshift/imagebuilder/strslice" ) var ( obRgex = regexp.MustCompile(`(?i)^\s*ONBUILD\s*`) ) // ENV foo bar // // Sets the environment variable foo to bar, also makes interpolation // in the dockerfile available from the next statement on via ${foo}. // func env(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) == 0 { return errAtLeastOneArgument("ENV") } if len(args)%2 != 0 { // should never get here, but just in case return errTooManyArguments("ENV") } // TODO/FIXME/NOT USED // Just here to show how to use the builder flags stuff within the // context of a builder command. Will remove once we actually add // a builder command to something! /* flBool1 := b.flags.AddBool("bool1", false) flStr1 := b.flags.AddString("str1", "HI") if err := b.flags.Parse(); err != nil { return err } fmt.Printf("Bool1:%v\n", flBool1) fmt.Printf("Str1:%v\n", flStr1) */ for j := 0; j < len(args); j++ { // name ==> args[j] // value ==> args[j+1] newVar := args[j] + "=" + args[j+1] + "" gotOne := false for i, envVar := range b.RunConfig.Env { envParts := strings.SplitN(envVar, "=", 2) if envParts[0] == args[j] { b.RunConfig.Env[i] = newVar b.Env = append([]string{newVar}, b.Env...) gotOne = true break } } if !gotOne { b.RunConfig.Env = append(b.RunConfig.Env, newVar) b.Env = append([]string{newVar}, b.Env...) } j++ } return nil } // MAINTAINER some text // // Sets the maintainer metadata. func maintainer(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) != 1 { return errExactlyOneArgument("MAINTAINER") } b.Author = args[0] return nil } // LABEL some json data describing the image // // Sets the Label variable foo to bar, // func label(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) == 0 { return errAtLeastOneArgument("LABEL") } if len(args)%2 != 0 { // should never get here, but just in case return errTooManyArguments("LABEL") } if b.RunConfig.Labels == nil { b.RunConfig.Labels = map[string]string{} } for j := 0; j < len(args); j++ { // name ==> args[j] // value ==> args[j+1] b.RunConfig.Labels[args[j]] = args[j+1] j++ } return nil } // ADD foo /path // // Add the file 'foo' to '/path'. Tarball and Remote URL (git, http) handling // exist here. If you do not wish to have this automatic handling, use COPY. // func add(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) < 2 { return errAtLeastOneArgument("ADD") } last := len(args) - 1 dest := makeAbsolute(args[last], b.RunConfig.WorkingDir) b.PendingCopies = append(b.PendingCopies, Copy{Src: args[0:last], Dest: dest, Download: true}) return nil } // COPY foo /path // // Same as 'ADD' but without the tar and remote url handling. // func dispatchCopy(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) < 2 { return errAtLeastOneArgument("COPY") } last := len(args) - 1 dest := makeAbsolute(args[last], b.RunConfig.WorkingDir) var chown string var from string if len(flagArgs) > 0 { for _, arg := range flagArgs { switch { case strings.HasPrefix(arg, "--chown="): chown = strings.TrimPrefix(arg, "--chown=") case strings.HasPrefix(arg, "--from="): from = strings.TrimPrefix(arg, "--from=") default: return fmt.Errorf("COPY only supports the --chown= and the --from= flags") } } } b.PendingCopies = append(b.PendingCopies, Copy{From: from, Src: args[0:last], Dest: dest, Download: false, Chown: chown}) return nil } // FROM imagename // // This sets the image the dockerfile will build on top of. // func from(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { switch { case len(args) == 1: case len(args) == 3 && len(args[0]) > 0 && strings.EqualFold(args[1], "as") && len(args[2]) > 0: default: return fmt.Errorf("FROM requires either one argument, or three: FROM [as ]") } name := args[0] // Support ARG before from argStrs := []string{} for n, v := range b.Args { argStrs = append(argStrs, n+"="+v) } var err error if name, err = ProcessWord(name, argStrs); err != nil { return err } // Windows cannot support a container with no base image. if name == NoBaseImageSpecifier { if runtime.GOOS == "windows" { return fmt.Errorf("Windows does not support FROM scratch") } } b.RunConfig.Image = name // TODO: handle onbuild return nil } // ONBUILD RUN echo yo // // ONBUILD triggers run when the image is used in a FROM statement. // // ONBUILD handling has a lot of special-case functionality, the heading in // evaluator.go and comments around dispatch() in the same file explain the // special cases. search for 'OnBuild' in internals.go for additional special // cases. // func onbuild(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) == 0 { return errAtLeastOneArgument("ONBUILD") } triggerInstruction := strings.ToUpper(strings.TrimSpace(args[0])) switch triggerInstruction { case "ONBUILD": return fmt.Errorf("Chaining ONBUILD via `ONBUILD ONBUILD` isn't allowed") case "MAINTAINER", "FROM": return fmt.Errorf("%s isn't allowed as an ONBUILD trigger", triggerInstruction) } original = obRgex.ReplaceAllString(original, "") b.RunConfig.OnBuild = append(b.RunConfig.OnBuild, original) return nil } // WORKDIR /tmp // // Set the working directory for future RUN/CMD/etc statements. // func workdir(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) != 1 { return errExactlyOneArgument("WORKDIR") } // This is from the Dockerfile and will not necessarily be in platform // specific semantics, hence ensure it is converted. workdir := filepath.FromSlash(args[0]) if !filepath.IsAbs(workdir) { current := filepath.FromSlash(b.RunConfig.WorkingDir) workdir = filepath.Join(string(os.PathSeparator), current, workdir) } b.RunConfig.WorkingDir = workdir return nil } // RUN some command yo // // run a command and commit the image. Args are automatically prepended with // 'sh -c' under linux or 'cmd /S /C' under Windows, in the event there is // only one argument. The difference in processing: // // RUN echo hi # sh -c echo hi (Linux) // RUN echo hi # cmd /S /C echo hi (Windows) // RUN [ "echo", "hi" ] # echo hi // func run(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if b.RunConfig.Image == "" { return fmt.Errorf("Please provide a source image with `from` prior to run") } args = handleJSONArgs(args, attributes) run := Run{Args: args} if !attributes["json"] { run.Shell = true } b.PendingRuns = append(b.PendingRuns, run) return nil } // CMD foo // // Set the default command to run in the container (which may be empty). // Argument handling is the same as RUN. // func cmd(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { cmdSlice := handleJSONArgs(args, attributes) if !attributes["json"] { if runtime.GOOS != "windows" { cmdSlice = append([]string{"/bin/sh", "-c"}, cmdSlice...) } else { cmdSlice = append([]string{"cmd", "/S", "/C"}, cmdSlice...) } } b.RunConfig.Cmd = strslice.StrSlice(cmdSlice) if len(args) != 0 { b.CmdSet = true } return nil } // ENTRYPOINT /usr/sbin/nginx // // Set the entrypoint (which defaults to sh -c on linux, or cmd /S /C on Windows) to // /usr/sbin/nginx. Will accept the CMD as the arguments to /usr/sbin/nginx. // // Handles command processing similar to CMD and RUN, only b.RunConfig.Entrypoint // is initialized at NewBuilder time instead of through argument parsing. // func entrypoint(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { parsed := handleJSONArgs(args, attributes) switch { case attributes["json"]: // ENTRYPOINT ["echo", "hi"] b.RunConfig.Entrypoint = strslice.StrSlice(parsed) case len(parsed) == 0: // ENTRYPOINT [] b.RunConfig.Entrypoint = nil default: // ENTRYPOINT echo hi if runtime.GOOS != "windows" { b.RunConfig.Entrypoint = strslice.StrSlice{"/bin/sh", "-c", parsed[0]} } else { b.RunConfig.Entrypoint = strslice.StrSlice{"cmd", "/S", "/C", parsed[0]} } } // when setting the entrypoint if a CMD was not explicitly set then // set the command to nil if !b.CmdSet { b.RunConfig.Cmd = nil } return nil } // EXPOSE 6667/tcp 7000/tcp // // Expose ports for links and port mappings. This all ends up in // b.RunConfig.ExposedPorts for runconfig. // func expose(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) == 0 { return errAtLeastOneArgument("EXPOSE") } if b.RunConfig.ExposedPorts == nil { b.RunConfig.ExposedPorts = make(map[docker.Port]struct{}) } existing := map[string]struct{}{} for k := range b.RunConfig.ExposedPorts { existing[k.Port()] = struct{}{} } for _, port := range args { dp := docker.Port(port) if _, exists := existing[dp.Port()]; !exists { b.RunConfig.ExposedPorts[docker.Port(fmt.Sprintf("%s/%s", dp.Port(), dp.Proto()))] = struct{}{} } } return nil } // USER foo // // Set the user to 'foo' for future commands and when running the // ENTRYPOINT/CMD at container run time. // func user(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) != 1 { return errExactlyOneArgument("USER") } b.RunConfig.User = args[0] return nil } // VOLUME /foo // // Expose the volume /foo for use. Will also accept the JSON array form. // func volume(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) == 0 { return errAtLeastOneArgument("VOLUME") } if b.RunConfig.Volumes == nil { b.RunConfig.Volumes = map[string]struct{}{} } for _, v := range args { v = strings.TrimSpace(v) if v == "" { return fmt.Errorf("Volume specified can not be an empty string") } b.RunConfig.Volumes[v] = struct{}{} b.PendingVolumes.Add(v) } return nil } // STOPSIGNAL signal // // Set the signal that will be used to kill the container. func stopSignal(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) != 1 { return errExactlyOneArgument("STOPSIGNAL") } sig := args[0] if err := signal.CheckSignal(sig); err != nil { return err } b.RunConfig.StopSignal = sig return nil } // HEALTHCHECK foo // // Set the default healthcheck command to run in the container (which may be empty). // Argument handling is the same as RUN. // func healthcheck(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) == 0 { return errAtLeastOneArgument("HEALTHCHECK") } typ := strings.ToUpper(args[0]) args = args[1:] if typ == "NONE" { if len(args) != 0 { return fmt.Errorf("HEALTHCHECK NONE takes no arguments") } test := strslice.StrSlice{typ} b.RunConfig.Healthcheck = &docker.HealthConfig{ Test: test, } } else { if b.RunConfig.Healthcheck != nil { oldCmd := b.RunConfig.Healthcheck.Test if len(oldCmd) > 0 && oldCmd[0] != "NONE" { b.Warnings = append(b.Warnings, fmt.Sprintf("Note: overriding previous HEALTHCHECK: %v\n", oldCmd)) } } healthcheck := docker.HealthConfig{} flags := flag.NewFlagSet("", flag.ContinueOnError) flags.String("start-period", "", "") flags.String("interval", "", "") flags.String("timeout", "", "") flRetries := flags.String("retries", "", "") if err := flags.Parse(flagArgs); err != nil { return err } switch typ { case "CMD": cmdSlice := handleJSONArgs(args, attributes) if len(cmdSlice) == 0 { return fmt.Errorf("Missing command after HEALTHCHECK CMD") } if !attributes["json"] { typ = "CMD-SHELL" } healthcheck.Test = strslice.StrSlice(append([]string{typ}, cmdSlice...)) default: return fmt.Errorf("Unknown type %#v in HEALTHCHECK (try CMD)", typ) } period, err := parseOptInterval(flags.Lookup("start-period")) if err != nil { return err } healthcheck.StartPeriod = period interval, err := parseOptInterval(flags.Lookup("interval")) if err != nil { return err } healthcheck.Interval = interval timeout, err := parseOptInterval(flags.Lookup("timeout")) if err != nil { return err } healthcheck.Timeout = timeout if *flRetries != "" { retries, err := strconv.ParseInt(*flRetries, 10, 32) if err != nil { return err } if retries < 1 { return fmt.Errorf("--retries must be at least 1 (not %d)", retries) } healthcheck.Retries = int(retries) } else { healthcheck.Retries = 0 } b.RunConfig.Healthcheck = &healthcheck } return nil } // ARG name[=value] // // Adds the variable foo to the trusted list of variables that can be passed // to builder using the --build-arg flag for expansion/subsitution or passing to 'run'. // Dockerfile author may optionally set a default value of this variable. func arg(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { if len(args) != 1 { return fmt.Errorf("ARG requires exactly one argument definition") } var ( name string value string hasDefault bool ) arg := 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) name = parts[0] value = parts[1] hasDefault = true } else { name = arg hasDefault = false } // add the arg to allowed list of build-time args from this step on. b.AllowedArgs[name] = true // If there is a default value associated with this arg then add it to the // b.buildArgs if one is not already passed to the builder. The args passed // to builder override the default value of 'arg'. if _, ok := b.Args[name]; !ok && hasDefault { b.Args[name] = value } return nil } // SHELL powershell -command // // Set the non-default shell to use. func shell(b *Builder, args []string, attributes map[string]bool, flagArgs []string, original string) error { shellSlice := handleJSONArgs(args, attributes) switch { case len(shellSlice) == 0: // SHELL [] return errAtLeastOneArgument("SHELL") case attributes["json"]: // SHELL ["powershell", "-command"] b.RunConfig.Shell = strslice.StrSlice(shellSlice) // b.RunConfig.Shell = strslice.StrSlice(shellSlice) default: // SHELL powershell -command - not JSON return errNotJSON("SHELL") } return nil } func errAtLeastOneArgument(command string) error { return fmt.Errorf("%s requires at least one argument", command) } func errExactlyOneArgument(command string) error { return fmt.Errorf("%s requires exactly one argument", command) } func errTooManyArguments(command string) error { return fmt.Errorf("Bad input to %s, too many arguments", command) } func errNotJSON(command string) error { return fmt.Errorf("%s requires the arguments to be in JSON form", command) }