// builder 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 resposibility 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 builder import ( "errors" "fmt" "io" "os" "path" "strings" "github.com/docker/docker/builder/parser" "github.com/docker/docker/daemon" "github.com/docker/docker/engine" "github.com/docker/docker/pkg/tarsum" "github.com/docker/docker/registry" "github.com/docker/docker/runconfig" "github.com/docker/docker/utils" ) var ( ErrDockerfileEmpty = errors.New("Dockerfile cannot be empty") ) var evaluateTable map[string]func(*Builder, []string, map[string]bool) error func init() { evaluateTable = map[string]func(*Builder, []string, map[string]bool) error{ "env": env, "maintainer": maintainer, "add": add, "copy": dispatchCopy, // copy() is a go builtin "from": from, "onbuild": onbuild, "workdir": workdir, "docker-version": nullDispatch, // we don't care about docker-version "run": run, "cmd": cmd, "entrypoint": entrypoint, "expose": expose, "volume": volume, "user": user, "insert": insert, } } // internal struct, used to maintain configuration of the Dockerfile's // processing as it evaluates the parsing result. type Builder struct { Daemon *daemon.Daemon Engine *engine.Engine // effectively stdio for the run. Because it is not stdio, I said // "Effectively". Do not use stdio anywhere in this package for any reason. OutStream io.Writer ErrStream io.Writer Verbose bool UtilizeCache bool // controls how images and containers are handled between steps. Remove bool ForceRemove bool AuthConfig *registry.AuthConfig AuthConfigFile *registry.ConfigFile // Deprecated, original writer used for ImagePull. To be removed. OutOld io.Writer StreamFormatter *utils.StreamFormatter Config *runconfig.Config // runconfig for cmd, run, entrypoint etc. // both of these are controlled by the Remove and ForceRemove options in BuildOpts TmpContainers map[string]struct{} // a map of containers used for removes dockerfile *parser.Node // the syntax tree of the dockerfile image string // image name for commit processing maintainer string // maintainer name. could probably be removed. cmdSet bool // indicates is CMD was set in current Dockerfile context *tarsum.TarSum // the context is a tarball that is uploaded by the client contextPath string // the path of the temporary directory the local context is unpacked to (server side) } // Run the builder with the context. This is the lynchpin of this package. This // will (barring errors): // // * call readContext() which will set up the temporary directory and unpack // the context into it. // * read the dockerfile // * parse the dockerfile // * walk the parse tree and execute it by dispatching to handlers. If Remove // or ForceRemove is set, additional cleanup around containers happens after // processing. // * Print a happy message and return the image ID. // func (b *Builder) Run(context io.Reader) (string, error) { if err := b.readContext(context); err != nil { return "", err } filename := path.Join(b.contextPath, "Dockerfile") fi, err := os.Stat(filename) if os.IsNotExist(err) { return "", fmt.Errorf("Cannot build a directory without a Dockerfile") } if fi.Size() == 0 { return "", ErrDockerfileEmpty } f, err := os.Open(filename) if err != nil { return "", err } defer f.Close() ast, err := parser.Parse(f) if err != nil { return "", err } b.dockerfile = ast // some initializations that would not have been supplied by the caller. b.Config = &runconfig.Config{} b.TmpContainers = map[string]struct{}{} for i, n := range b.dockerfile.Children { if err := b.dispatch(i, n); err != nil { if b.ForceRemove { b.clearTmp() } return "", err } fmt.Fprintf(b.OutStream, " ---> %s\n", utils.TruncateID(b.image)) if b.Remove { b.clearTmp() } } if b.image == "" { return "", fmt.Errorf("No image was generated. Is your Dockerfile empty?\n") } fmt.Fprintf(b.OutStream, "Successfully built %s\n", utils.TruncateID(b.image)) return b.image, nil } // 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 statmeent, // 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 attrs := ast.Attributes strs := []string{} msg := fmt.Sprintf("Step %d : %s", stepN, strings.ToUpper(cmd)) if cmd == "onbuild" { ast = ast.Next.Children[0] strs = append(strs, b.replaceEnv(ast.Value)) msg += " " + ast.Value } for ast.Next != nil { ast = ast.Next strs = append(strs, b.replaceEnv(ast.Value)) msg += " " + ast.Value } fmt.Fprintln(b.OutStream, 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 { return f(b, strs, attrs) } fmt.Fprintf(b.ErrStream, "# Skipping unknown instruction %s\n", strings.ToUpper(cmd)) return nil }