cmd/soong_ui/main.go - platform/build/soong - Git at Google

 // Copyright 2017 Google Inc. All rights reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 package main

 import (
 	"context"
 	"flag"
 	"fmt"
 	"io/ioutil"
 	"os"
 	"path/filepath"
 	"strconv"
 	"strings"
 	"syscall"
 	"time"

 	"android/soong/shared"
 	"android/soong/ui/build"
 	"android/soong/ui/logger"
 	"android/soong/ui/metrics"
 	"android/soong/ui/signal"
 	"android/soong/ui/status"
 	"android/soong/ui/terminal"
 	"android/soong/ui/tracer"
 )

 // A command represents an operation to be executed in the soong build
 // system.
 type command struct {
 	// The flag name (must have double dashes).
 	flag string

 	// Description for the flag (to display when running help).
 	description string

 	// Stream the build status output into the simple terminal mode.
 	simpleOutput bool

 	// Sets a prefix string to use for filenames of log files.
 	logsPrefix string

 	// Creates the build configuration based on the args and build context.
 	config func(ctx build.Context, args ...string) build.Config

 	// Returns what type of IO redirection this Command requires.
 	stdio func() terminal.StdioInterface

 	// run the command
 	run func(ctx build.Context, config build.Config, args []string, logsDir string)
 }

 // list of supported commands (flags) supported by soong ui
 var commands = []command{
 	{
 		flag:        "--make-mode",
 		description: "build the modules by the target name (i.e. soong_docs)",
 		config: func(ctx build.Context, args ...string) build.Config {
 			return build.NewConfig(ctx, args...)
 		},
 		stdio: stdio,
 		run:   runMake,
 	}, {
 		flag:         "--dumpvar-mode",
 		description:  "print the value of the legacy make variable VAR to stdout",
 		simpleOutput: true,
 		logsPrefix:   "dumpvars-",
 		config:       dumpVarConfig,
 		stdio:        customStdio,
 		run:          dumpVar,
 	}, {
 		flag:         "--dumpvars-mode",
 		description:  "dump the values of one or more legacy make variables, in shell syntax",
 		simpleOutput: true,
 		logsPrefix:   "dumpvars-",
 		config:       dumpVarConfig,
 		stdio:        customStdio,
 		run:          dumpVars,
 	}, {
 		flag:        "--build-mode",
 		description: "build modules based on the specified build action",
 		config:      buildActionConfig,
 		stdio:       stdio,
 		run:         runMake,
 	},
 }

 // indexList returns the index of first found s. -1 is return if s is not
 // found.
 func indexList(s string, list []string) int {
 	for i, l := range list {
 		if l == s {
 			return i
 		}
 	}
 	return -1
 }

 // inList returns true if one or more of s is in the list.
 func inList(s string, list []string) bool {
 	return indexList(s, list) != -1
 }

 // Main execution of soong_ui. The command format is as follows:
 //
 //    soong_ui <command> [<arg 1> <arg 2> ... <arg n>]
 //
 // Command is the type of soong_ui execution. Only one type of
 // execution is specified. The args are specific to the command.
 func main() {
 	shared.ReexecWithDelveMaybe(os.Getenv("SOONG_UI_DELVE"), shared.ResolveDelveBinary())

 	buildStarted := time.Now()

 	c, args, err := getCommand(os.Args)
 	if err != nil {
 		fmt.Fprintf(os.Stderr, "Error parsing `soong` args: %s.\n", err)
 		os.Exit(1)
 	}

 	// Create a terminal output that mimics Ninja's.
 	output := terminal.NewStatusOutput(c.stdio().Stdout(), os.Getenv("NINJA_STATUS"), c.simpleOutput,
 		build.OsEnvironment().IsEnvTrue("ANDROID_QUIET_BUILD"),
 		build.OsEnvironment().IsEnvTrue("SOONG_UI_ANSI_OUTPUT"))

 	// Attach a new logger instance to the terminal output.
 	log := logger.New(output)
 	defer log.Cleanup()

 	// Create a context to simplify the program termination process.
 	ctx, cancel := context.WithCancel(context.Background())
 	defer cancel()

 	// Create a new trace file writer, making it log events to the log instance.
 	trace := tracer.New(log)
 	defer trace.Close()

 	// Create and start a new metric record.
 	met := metrics.New()
 	met.SetBuildDateTime(buildStarted)
 	met.SetBuildCommand(os.Args)

 	// Create a new Status instance, which manages action counts and event output channels.
 	stat := &status.Status{}
 	defer stat.Finish()
 	// Hook up the terminal output and tracer to Status.
 	stat.AddOutput(output)
 	stat.AddOutput(trace.StatusTracer())

 	// Set up a cleanup procedure in case the normal termination process doesn't work.
 	signal.SetupSignals(log, cancel, func() {
 		trace.Close()
 		log.Cleanup()
 		stat.Finish()
 	})

 	buildCtx := build.Context{ContextImpl: &build.ContextImpl{
 		Context: ctx,
 		Logger:  log,
 		Metrics: met,
 		Tracer:  trace,
 		Writer:  output,
 		Status:  stat,
 	}}

 	config := c.config(buildCtx, args...)

 	build.SetupOutDir(buildCtx, config)

 	if config.UseBazel() && config.Dist() {
 		defer populateExternalDistDir(buildCtx, config)
 	}

 	// Set up files to be outputted in the log directory.
 	logsDir := config.LogsDir()

 	// Common list of metric file definition.
 	buildErrorFile := filepath.Join(logsDir, c.logsPrefix+"build_error")
 	rbeMetricsFile := filepath.Join(logsDir, c.logsPrefix+"rbe_metrics.pb")
 	soongMetricsFile := filepath.Join(logsDir, c.logsPrefix+"soong_metrics")

 	build.PrintOutDirWarning(buildCtx, config)

 	os.MkdirAll(logsDir, 0777)
 	log.SetOutput(filepath.Join(logsDir, c.logsPrefix+"soong.log"))
 	trace.SetOutput(filepath.Join(logsDir, c.logsPrefix+"build.trace"))
 	stat.AddOutput(status.NewVerboseLog(log, filepath.Join(logsDir, c.logsPrefix+"verbose.log")))
 	stat.AddOutput(status.NewErrorLog(log, filepath.Join(logsDir, c.logsPrefix+"error.log")))
 	stat.AddOutput(status.NewProtoErrorLog(log, buildErrorFile))
 	stat.AddOutput(status.NewCriticalPath(log))
 	stat.AddOutput(status.NewBuildProgressLog(log, filepath.Join(logsDir, c.logsPrefix+"build_progress.pb")))

 	buildCtx.Verbosef("Detected %.3v GB total RAM", float32(config.TotalRAM())/(1024*1024*1024))
 	buildCtx.Verbosef("Parallelism (local/remote/highmem): %v/%v/%v",
 		config.Parallel(), config.RemoteParallel(), config.HighmemParallel())

 	setMaxFiles(buildCtx)

 	{
 		// The order of the function calls is important. The last defer function call
 		// is the first one that is executed to save the rbe metrics to a protobuf
 		// file. The soong metrics file is then next. Bazel profiles are written
 		// before the uploadMetrics is invoked. The written files are then uploaded
 		// if the uploading of the metrics is enabled.
 		files := []string{
 			buildErrorFile,           // build error strings
 			rbeMetricsFile,           // high level metrics related to remote build execution.
 			soongMetricsFile,         // high level metrics related to this build system.
 			config.BazelMetricsDir(), // directory that contains a set of bazel metrics.
 		}
 		defer build.UploadMetrics(buildCtx, config, c.simpleOutput, buildStarted, files...)
 		defer met.Dump(soongMetricsFile)
 	}

 	// Read the time at the starting point.
 	if start, ok := os.LookupEnv("TRACE_BEGIN_SOONG"); ok {
 		// soong_ui.bash uses the date command's %N (nanosec) flag when getting the start time,
 		// which Darwin doesn't support. Check if it was executed properly before parsing the value.
 		if !strings.HasSuffix(start, "N") {
 			if start_time, err := strconv.ParseUint(start, 10, 64); err == nil {
 				log.Verbosef("Took %dms to start up.",
 					time.Since(time.Unix(0, int64(start_time))).Nanoseconds()/time.Millisecond.Nanoseconds())
 				buildCtx.CompleteTrace(metrics.RunSetupTool, "startup", start_time, uint64(time.Now().UnixNano()))
 			}
 		}

 		if executable, err := os.Executable(); err == nil {
 			trace.ImportMicrofactoryLog(filepath.Join(filepath.Dir(executable), "."+filepath.Base(executable)+".trace"))
 		}
 	}

 	// Fix up the source tree due to a repo bug where it doesn't remove
 	// linkfiles that have been removed
 	fixBadDanglingLink(buildCtx, "hardware/qcom/sdm710/Android.bp")
 	fixBadDanglingLink(buildCtx, "hardware/qcom/sdm710/Android.mk")

 	// Create a source finder.
 	f := build.NewSourceFinder(buildCtx, config)
 	defer f.Shutdown()
 	build.FindSources(buildCtx, config, f)

 	c.run(buildCtx, config, args, logsDir)
 }

 func fixBadDanglingLink(ctx build.Context, name string) {
 	_, err := os.Lstat(name)
 	if err != nil {
 		return
 	}
 	_, err = os.Stat(name)
 	if os.IsNotExist(err) {
 		err = os.Remove(name)
 		if err != nil {
 			ctx.Fatalf("Failed to remove dangling link %q: %v", name, err)
 		}
 	}
 }

 func dumpVar(ctx build.Context, config build.Config, args []string, _ string) {
 	flags := flag.NewFlagSet("dumpvar", flag.ExitOnError)
 	flags.Usage = func() {
 		fmt.Fprintf(ctx.Writer, "usage: %s --dumpvar-mode [--abs] <VAR>\n\n", os.Args[0])
 		fmt.Fprintln(ctx.Writer, "In dumpvar mode, print the value of the legacy make variable VAR to stdout")
 		fmt.Fprintln(ctx.Writer, "")

 		fmt.Fprintln(ctx.Writer, "'report_config' is a special case that prints the human-readable config banner")
 		fmt.Fprintln(ctx.Writer, "from the beginning of the build.")
 		fmt.Fprintln(ctx.Writer, "")
 		flags.PrintDefaults()
 	}
 	abs := flags.Bool("abs", false, "Print the absolute path of the value")
 	flags.Parse(args)

 	if flags.NArg() != 1 {
 		flags.Usage()
 		os.Exit(1)
 	}

 	varName := flags.Arg(0)
 	if varName == "report_config" {
 		varData, err := build.DumpMakeVars(ctx, config, nil, build.BannerVars)
 		if err != nil {
 			ctx.Fatal(err)
 		}

 		fmt.Println(build.Banner(varData))
 	} else {
 		varData, err := build.DumpMakeVars(ctx, config, nil, []string{varName})
 		if err != nil {
 			ctx.Fatal(err)
 		}

 		if *abs {
 			var res []string
 			for _, path := range strings.Fields(varData[varName]) {
 				if abs, err := filepath.Abs(path); err == nil {
 					res = append(res, abs)
 				} else {
 					ctx.Fatalln("Failed to get absolute path of", path, err)
 				}
 			}
 			fmt.Println(strings.Join(res, " "))
 		} else {
 			fmt.Println(varData[varName])
 		}
 	}
 }

 func dumpVars(ctx build.Context, config build.Config, args []string, _ string) {
 	flags := flag.NewFlagSet("dumpvars", flag.ExitOnError)
 	flags.Usage = func() {
 		fmt.Fprintf(ctx.Writer, "usage: %s --dumpvars-mode [--vars=\"VAR VAR ...\"]\n\n", os.Args[0])
 		fmt.Fprintln(ctx.Writer, "In dumpvars mode, dump the values of one or more legacy make variables, in")
 		fmt.Fprintln(ctx.Writer, "shell syntax. The resulting output may be sourced directly into a shell to")
 		fmt.Fprintln(ctx.Writer, "set corresponding shell variables.")
 		fmt.Fprintln(ctx.Writer, "")

 		fmt.Fprintln(ctx.Writer, "'report_config' is a special case that dumps a variable containing the")
 		fmt.Fprintln(ctx.Writer, "human-readable config banner from the beginning of the build.")
 		fmt.Fprintln(ctx.Writer, "")
 		flags.PrintDefaults()
 	}

 	varsStr := flags.String("vars", "", "Space-separated list of variables to dump")
 	absVarsStr := flags.String("abs-vars", "", "Space-separated list of variables to dump (using absolute paths)")

 	varPrefix := flags.String("var-prefix", "", "String to prepend to all variable names when dumping")
 	absVarPrefix := flags.String("abs-var-prefix", "", "String to prepent to all absolute path variable names when dumping")

 	flags.Parse(args)

 	if flags.NArg() != 0 {
 		flags.Usage()
 		os.Exit(1)
 	}

 	vars := strings.Fields(*varsStr)
 	absVars := strings.Fields(*absVarsStr)

 	allVars := append([]string{}, vars...)
 	allVars = append(allVars, absVars...)

 	if i := indexList("report_config", allVars); i != -1 {
 		allVars = append(allVars[:i], allVars[i+1:]...)
 		allVars = append(allVars, build.BannerVars...)
 	}

 	if len(allVars) == 0 {
 		return
 	}

 	varData, err := build.DumpMakeVars(ctx, config, nil, allVars)
 	if err != nil {
 		ctx.Fatal(err)
 	}

 	for _, name := range vars {
 		if name == "report_config" {
 			fmt.Printf("%sreport_config='%s'\n", *varPrefix, build.Banner(varData))
 		} else {
 			fmt.Printf("%s%s='%s'\n", *varPrefix, name, varData[name])
 		}
 	}
 	for _, name := range absVars {
 		var res []string
 		for _, path := range strings.Fields(varData[name]) {
 			abs, err := filepath.Abs(path)
 			if err != nil {
 				ctx.Fatalln("Failed to get absolute path of", path, err)
 			}
 			res = append(res, abs)
 		}
 		fmt.Printf("%s%s='%s'\n", *absVarPrefix, name, strings.Join(res, " "))
 	}
 }

 func stdio() terminal.StdioInterface {
 	return terminal.StdioImpl{}
 }

 // dumpvar and dumpvars use stdout to output variable values, so use stderr instead of stdout when
 // reporting events to keep stdout clean from noise.
 func customStdio() terminal.StdioInterface {
 	return terminal.NewCustomStdio(os.Stdin, os.Stderr, os.Stderr)
 }

 // dumpVarConfig does not require any arguments to be parsed by the NewConfig.
 func dumpVarConfig(ctx build.Context, args ...string) build.Config {
 	return build.NewConfig(ctx)
 }

 func buildActionConfig(ctx build.Context, args ...string) build.Config {
 	flags := flag.NewFlagSet("build-mode", flag.ContinueOnError)
 	flags.Usage = func() {
 		fmt.Fprintf(ctx.Writer, "usage: %s --build-mode --dir=<path> <build action> [<build arg 1> <build arg 2> ...]\n\n", os.Args[0])
 		fmt.Fprintln(ctx.Writer, "In build mode, build the set of modules based on the specified build")
 		fmt.Fprintln(ctx.Writer, "action. The --dir flag is required to determine what is needed to")
 		fmt.Fprintln(ctx.Writer, "build in the source tree based on the build action. See below for")
 		fmt.Fprintln(ctx.Writer, "the list of acceptable build action flags.")
 		fmt.Fprintln(ctx.Writer, "")
 		flags.PrintDefaults()
 	}

 	buildActionFlags := []struct {
 		name        string
 		description string
 		action      build.BuildAction
 		set         bool
 	}{{
 		name:        "all-modules",
 		description: "Build action: build from the top of the source tree.",
 		action:      build.BUILD_MODULES,
 	}, {
 		// This is redirecting to mma build command behaviour. Once it has soaked for a
 		// while, the build command is deleted from here once it has been removed from the
 		// envsetup.sh.
 		name:        "modules-in-a-dir-no-deps",
 		description: "Build action: builds all of the modules in the current directory without their dependencies.",
 		action:      build.BUILD_MODULES_IN_A_DIRECTORY,
 	}, {
 		// This is redirecting to mmma build command behaviour. Once it has soaked for a
 		// while, the build command is deleted from here once it has been removed from the
 		// envsetup.sh.
 		name:        "modules-in-dirs-no-deps",
 		description: "Build action: builds all of the modules in the supplied directories without their dependencies.",
 		action:      build.BUILD_MODULES_IN_DIRECTORIES,
 	}, {
 		name:        "modules-in-a-dir",
 		description: "Build action: builds all of the modules in the current directory and their dependencies.",
 		action:      build.BUILD_MODULES_IN_A_DIRECTORY,
 	}, {
 		name:        "modules-in-dirs",
 		description: "Build action: builds all of the modules in the supplied directories and their dependencies.",
 		action:      build.BUILD_MODULES_IN_DIRECTORIES,
 	}}
 	for i, flag := range buildActionFlags {
 		flags.BoolVar(&buildActionFlags[i].set, flag.name, false, flag.description)
 	}
 	dir := flags.String("dir", "", "Directory of the executed build command.")

 	// Only interested in the first two args which defines the build action and the directory.
 	// The remaining arguments are passed down to the config.
 	const numBuildActionFlags = 2
 	if len(args) < numBuildActionFlags {
 		flags.Usage()
 		ctx.Fatalln("Improper build action arguments.")
 	}
 	flags.Parse(args[0:numBuildActionFlags])

 	// The next block of code is to validate that exactly one build action is set and the dir flag
 	// is specified.
 	buildActionCount := 0
 	var buildAction build.BuildAction
 	for _, flag := range buildActionFlags {
 		if flag.set {
 			buildActionCount++
 			buildAction = flag.action
 		}
 	}
 	if buildActionCount != 1 {
 		ctx.Fatalln("Build action not defined.")
 	}
 	if *dir == "" {
 		ctx.Fatalln("-dir not specified.")
 	}

 	// Remove the build action flags from the args as they are not recognized by the config.
 	args = args[numBuildActionFlags:]
 	return build.NewBuildActionConfig(buildAction, *dir, ctx, args...)
 }

 func runMake(ctx build.Context, config build.Config, _ []string, logsDir string) {
 	if config.IsVerbose() {
 		writer := ctx.Writer
 		fmt.Fprintln(writer, "! The argument `showcommands` is no longer supported.")
 		fmt.Fprintln(writer, "! Instead, the verbose log is always written to a compressed file in the output dir:")
 		fmt.Fprintln(writer, "!")
 		fmt.Fprintf(writer, "!   gzip -cd %s/verbose.log.gz | less -R\n", logsDir)
 		fmt.Fprintln(writer, "!")
 		fmt.Fprintln(writer, "! Older versions are saved in verbose.log.#.gz files")
 		fmt.Fprintln(writer, "")
 		select {
 		case <-time.After(5 * time.Second):
 		case <-ctx.Done():
 			return
 		}
 	}

 	if _, ok := config.Environment().Get("ONE_SHOT_MAKEFILE"); ok {
 		writer := ctx.Writer
 		fmt.Fprintln(writer, "! The variable `ONE_SHOT_MAKEFILE` is obsolete.")
 		fmt.Fprintln(writer, "!")
 		fmt.Fprintln(writer, "! If you're using `mm`, you'll need to run `source build/envsetup.sh` to update.")
 		fmt.Fprintln(writer, "!")
 		fmt.Fprintln(writer, "! Otherwise, either specify a module name with m, or use mma / MODULES-IN-...")
 		fmt.Fprintln(writer, "")
 		ctx.Fatal("done")
 	}

 	build.Build(ctx, config)
 }

 // getCommand finds the appropriate command based on args[1] flag. args[0]
 // is the soong_ui filename.
 func getCommand(args []string) (*command, []string, error) {
 	if len(args) < 2 {
 		return nil, nil, fmt.Errorf("Too few arguments: %q", args)
 	}

 	for _, c := range commands {
 		if c.flag == args[1] {
 			return &c, args[2:], nil
 		}
 	}

 	// command not found
 	flags := make([]string, len(commands))
 	for i, c := range commands {
 		flags[i] = c.flag
 	}
 	return nil, nil, fmt.Errorf("Command not found: %q\nDid you mean one of these: %q", args, flags)
 }

 // For Bazel support, this moves files and directories from e.g. out/dist/$f to DIST_DIR/$f if necessary.
 func populateExternalDistDir(ctx build.Context, config build.Config) {
 	// Make sure that internalDistDirPath and externalDistDirPath are both absolute paths, so we can compare them
 	var err error
 	var internalDistDirPath string
 	var externalDistDirPath string
 	if internalDistDirPath, err = filepath.Abs(config.DistDir()); err != nil {
 		ctx.Fatalf("Unable to find absolute path of %s: %s", internalDistDirPath, err)
 	}
 	if externalDistDirPath, err = filepath.Abs(config.RealDistDir()); err != nil {
 		ctx.Fatalf("Unable to find absolute path of %s: %s", externalDistDirPath, err)
 	}
 	if externalDistDirPath == internalDistDirPath {
 		return
 	}

 	// Make sure the internal DIST_DIR actually exists before trying to read from it
 	if _, err = os.Stat(internalDistDirPath); os.IsNotExist(err) {
 		ctx.Println("Skipping Bazel dist dir migration - nothing to do!")
 		return
 	}

 	// Make sure the external DIST_DIR actually exists before trying to write to it
 	if err = os.MkdirAll(externalDistDirPath, 0755); err != nil {
 		ctx.Fatalf("Unable to make directory %s: %s", externalDistDirPath, err)
 	}

 	ctx.Println("Populating external DIST_DIR...")

 	populateExternalDistDirHelper(ctx, config, internalDistDirPath, externalDistDirPath)
 }

 func populateExternalDistDirHelper(ctx build.Context, config build.Config, internalDistDirPath string, externalDistDirPath string) {
 	files, err := ioutil.ReadDir(internalDistDirPath)
 	if err != nil {
 		ctx.Fatalf("Can't read internal distdir %s: %s", internalDistDirPath, err)
 	}
 	for _, f := range files {
 		internalFilePath := filepath.Join(internalDistDirPath, f.Name())
 		externalFilePath := filepath.Join(externalDistDirPath, f.Name())

 		if f.IsDir() {
 			// Moving a directory - check if there is an existing directory to merge with
 			externalLstat, err := os.Lstat(externalFilePath)
 			if err != nil {
 				if !os.IsNotExist(err) {
 					ctx.Fatalf("Can't lstat external %s: %s", externalDistDirPath, err)
 				}
 				// Otherwise, if the error was os.IsNotExist, that's fine and we fall through to the rename at the bottom
 			} else {
 				if externalLstat.IsDir() {
 					// Existing dir - try to merge the directories?
 					populateExternalDistDirHelper(ctx, config, internalFilePath, externalFilePath)
 					continue
 				} else {
 					// Existing file being replaced with a directory. Delete the existing file...
 					if err := os.RemoveAll(externalFilePath); err != nil {
 						ctx.Fatalf("Unable to remove existing %s: %s", externalFilePath, err)
 					}
 				}
 			}
 		} else {
 			// Moving a file (not a dir) - delete any existing file or directory
 			if err := os.RemoveAll(externalFilePath); err != nil {
 				ctx.Fatalf("Unable to remove existing %s: %s", externalFilePath, err)
 			}
 		}

 		// The actual move - do a rename instead of a copy in order to save disk space.
 		if err := os.Rename(internalFilePath, externalFilePath); err != nil {
 			ctx.Fatalf("Unable to rename %s -> %s due to error %s", internalFilePath, externalFilePath, err)
 		}
 	}
 }

 func setMaxFiles(ctx build.Context) {
 	var limits syscall.Rlimit

 	err := syscall.Getrlimit(syscall.RLIMIT_NOFILE, &limits)
 	if err != nil {
 		ctx.Println("Failed to get file limit:", err)
 		return
 	}

 	ctx.Verbosef("Current file limits: %d soft, %d hard", limits.Cur, limits.Max)
 	if limits.Cur == limits.Max {
 		return
 	}

 	limits.Cur = limits.Max
 	err = syscall.Setrlimit(syscall.RLIMIT_NOFILE, &limits)
 	if err != nil {
 		ctx.Println("Failed to increase file limit:", err)
 	}
 }
	// Copyright 2017 Google Inc. All rights reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	package main

	import (
	"context"
	"flag"
	"fmt"
	"io/ioutil"
	"os"
	"path/filepath"
	"strconv"
	"strings"
	"syscall"
	"time"

	"android/soong/shared"
	"android/soong/ui/build"
	"android/soong/ui/logger"
	"android/soong/ui/metrics"
	"android/soong/ui/signal"
	"android/soong/ui/status"
	"android/soong/ui/terminal"
	"android/soong/ui/tracer"
	)

	// A command represents an operation to be executed in the soong build
	// system.
	type command struct {
	// The flag name (must have double dashes).
	flag string

	// Description for the flag (to display when running help).
	description string

	// Stream the build status output into the simple terminal mode.
	simpleOutput bool

	// Sets a prefix string to use for filenames of log files.
	logsPrefix string

	// Creates the build configuration based on the args and build context.
	config func(ctx build.Context, args ...string) build.Config

	// Returns what type of IO redirection this Command requires.
	stdio func() terminal.StdioInterface

	// run the command
	run func(ctx build.Context, config build.Config, args []string, logsDir string)
	}

	// list of supported commands (flags) supported by soong ui
	var commands = []command{
	{
	flag: "--make-mode",
	description: "build the modules by the target name (i.e. soong_docs)",
	config: func(ctx build.Context, args ...string) build.Config {
	return build.NewConfig(ctx, args...)
	},
	stdio: stdio,
	run: runMake,
	}, {
	flag: "--dumpvar-mode",
	description: "print the value of the legacy make variable VAR to stdout",
	simpleOutput: true,
	logsPrefix: "dumpvars-",
	config: dumpVarConfig,
	stdio: customStdio,
	run: dumpVar,
	}, {
	flag: "--dumpvars-mode",
	description: "dump the values of one or more legacy make variables, in shell syntax",
	simpleOutput: true,
	logsPrefix: "dumpvars-",
	config: dumpVarConfig,
	stdio: customStdio,
	run: dumpVars,
	}, {
	flag: "--build-mode",
	description: "build modules based on the specified build action",
	config: buildActionConfig,
	stdio: stdio,
	run: runMake,
	},
	}

	// indexList returns the index of first found s. -1 is return if s is not
	// found.
	func indexList(s string, list []string) int {
	for i, l := range list {
	if l == s {
	return i
	}
	}
	return -1
	}

	// inList returns true if one or more of s is in the list.
	func inList(s string, list []string) bool {
	return indexList(s, list) != -1
	}

	// Main execution of soong_ui. The command format is as follows:
	//
	// soong_ui <command> [<arg 1> <arg 2> ... <arg n>]
	//
	// Command is the type of soong_ui execution. Only one type of
	// execution is specified. The args are specific to the command.
	func main() {
	shared.ReexecWithDelveMaybe(os.Getenv("SOONG_UI_DELVE"), shared.ResolveDelveBinary())

	buildStarted := time.Now()

	c, args, err := getCommand(os.Args)
	if err != nil {
	fmt.Fprintf(os.Stderr, "Error parsing `soong` args: %s.\n", err)
	os.Exit(1)
	}

	// Create a terminal output that mimics Ninja's.
	output := terminal.NewStatusOutput(c.stdio().Stdout(), os.Getenv("NINJA_STATUS"), c.simpleOutput,
	build.OsEnvironment().IsEnvTrue("ANDROID_QUIET_BUILD"),
	build.OsEnvironment().IsEnvTrue("SOONG_UI_ANSI_OUTPUT"))

	// Attach a new logger instance to the terminal output.
	log := logger.New(output)
	defer log.Cleanup()

	// Create a context to simplify the program termination process.
	ctx, cancel := context.WithCancel(context.Background())
	defer cancel()

	// Create a new trace file writer, making it log events to the log instance.
	trace := tracer.New(log)
	defer trace.Close()

	// Create and start a new metric record.
	met := metrics.New()
	met.SetBuildDateTime(buildStarted)
	met.SetBuildCommand(os.Args)

	// Create a new Status instance, which manages action counts and event output channels.
	stat := &status.Status{}
	defer stat.Finish()
	// Hook up the terminal output and tracer to Status.
	stat.AddOutput(output)
	stat.AddOutput(trace.StatusTracer())

	// Set up a cleanup procedure in case the normal termination process doesn't work.
	signal.SetupSignals(log, cancel, func() {
	trace.Close()
	log.Cleanup()
	stat.Finish()
	})

	buildCtx := build.Context{ContextImpl: &build.ContextImpl{
	Context: ctx,
	Logger: log,
	Metrics: met,
	Tracer: trace,
	Writer: output,
	Status: stat,
	}}

	config := c.config(buildCtx, args...)

	build.SetupOutDir(buildCtx, config)

	if config.UseBazel() && config.Dist() {
	defer populateExternalDistDir(buildCtx, config)
	}

	// Set up files to be outputted in the log directory.
	logsDir := config.LogsDir()

	// Common list of metric file definition.
	buildErrorFile := filepath.Join(logsDir, c.logsPrefix+"build_error")
	rbeMetricsFile := filepath.Join(logsDir, c.logsPrefix+"rbe_metrics.pb")
	soongMetricsFile := filepath.Join(logsDir, c.logsPrefix+"soong_metrics")

	build.PrintOutDirWarning(buildCtx, config)

	os.MkdirAll(logsDir, 0777)
	log.SetOutput(filepath.Join(logsDir, c.logsPrefix+"soong.log"))
	trace.SetOutput(filepath.Join(logsDir, c.logsPrefix+"build.trace"))
	stat.AddOutput(status.NewVerboseLog(log, filepath.Join(logsDir, c.logsPrefix+"verbose.log")))
	stat.AddOutput(status.NewErrorLog(log, filepath.Join(logsDir, c.logsPrefix+"error.log")))
	stat.AddOutput(status.NewProtoErrorLog(log, buildErrorFile))
	stat.AddOutput(status.NewCriticalPath(log))
	stat.AddOutput(status.NewBuildProgressLog(log, filepath.Join(logsDir, c.logsPrefix+"build_progress.pb")))

	buildCtx.Verbosef("Detected %.3v GB total RAM", float32(config.TotalRAM())/(102410241024))
	buildCtx.Verbosef("Parallelism (local/remote/highmem): %v/%v/%v",
	config.Parallel(), config.RemoteParallel(), config.HighmemParallel())

	setMaxFiles(buildCtx)

	{
	// The order of the function calls is important. The last defer function call
	// is the first one that is executed to save the rbe metrics to a protobuf
	// file. The soong metrics file is then next. Bazel profiles are written
	// before the uploadMetrics is invoked. The written files are then uploaded
	// if the uploading of the metrics is enabled.
	files := []string{
	buildErrorFile, // build error strings
	rbeMetricsFile, // high level metrics related to remote build execution.
	soongMetricsFile, // high level metrics related to this build system.
	config.BazelMetricsDir(), // directory that contains a set of bazel metrics.
	}
	defer build.UploadMetrics(buildCtx, config, c.simpleOutput, buildStarted, files...)
	defer met.Dump(soongMetricsFile)
	}

	// Read the time at the starting point.
	if start, ok := os.LookupEnv("TRACE_BEGIN_SOONG"); ok {
	// soong_ui.bash uses the date command's %N (nanosec) flag when getting the start time,
	// which Darwin doesn't support. Check if it was executed properly before parsing the value.
	if !strings.HasSuffix(start, "N") {
	if start_time, err := strconv.ParseUint(start, 10, 64); err == nil {
	log.Verbosef("Took %dms to start up.",
	time.Since(time.Unix(0, int64(start_time))).Nanoseconds()/time.Millisecond.Nanoseconds())
	buildCtx.CompleteTrace(metrics.RunSetupTool, "startup", start_time, uint64(time.Now().UnixNano()))
	}
	}

	if executable, err := os.Executable(); err == nil {
	trace.ImportMicrofactoryLog(filepath.Join(filepath.Dir(executable), "."+filepath.Base(executable)+".trace"))
	}
	}

	// Fix up the source tree due to a repo bug where it doesn't remove
	// linkfiles that have been removed
	fixBadDanglingLink(buildCtx, "hardware/qcom/sdm710/Android.bp")
	fixBadDanglingLink(buildCtx, "hardware/qcom/sdm710/Android.mk")

	// Create a source finder.
	f := build.NewSourceFinder(buildCtx, config)
	defer f.Shutdown()
	build.FindSources(buildCtx, config, f)

	c.run(buildCtx, config, args, logsDir)
	}

	func fixBadDanglingLink(ctx build.Context, name string) {
	_, err := os.Lstat(name)
	if err != nil {
	return
	}
	_, err = os.Stat(name)
	if os.IsNotExist(err) {
	err = os.Remove(name)
	if err != nil {
	ctx.Fatalf("Failed to remove dangling link %q: %v", name, err)
	}
	}
	}

	func dumpVar(ctx build.Context, config build.Config, args []string, _ string) {
	flags := flag.NewFlagSet("dumpvar", flag.ExitOnError)
	flags.Usage = func() {
	fmt.Fprintf(ctx.Writer, "usage: %s --dumpvar-mode [--abs] <VAR>\n\n", os.Args[0])
	fmt.Fprintln(ctx.Writer, "In dumpvar mode, print the value of the legacy make variable VAR to stdout")
	fmt.Fprintln(ctx.Writer, "")

	fmt.Fprintln(ctx.Writer, "'report_config' is a special case that prints the human-readable config banner")
	fmt.Fprintln(ctx.Writer, "from the beginning of the build.")
	fmt.Fprintln(ctx.Writer, "")
	flags.PrintDefaults()
	}
	abs := flags.Bool("abs", false, "Print the absolute path of the value")
	flags.Parse(args)

	if flags.NArg() != 1 {
	flags.Usage()
	os.Exit(1)
	}

	varName := flags.Arg(0)
	if varName == "report_config" {
	varData, err := build.DumpMakeVars(ctx, config, nil, build.BannerVars)
	if err != nil {
	ctx.Fatal(err)
	}

	fmt.Println(build.Banner(varData))
	} else {
	varData, err := build.DumpMakeVars(ctx, config, nil, []string{varName})
	if err != nil {
	ctx.Fatal(err)
	}

	if *abs {
	var res []string
	for _, path := range strings.Fields(varData[varName]) {
	if abs, err := filepath.Abs(path); err == nil {
	res = append(res, abs)
	} else {
	ctx.Fatalln("Failed to get absolute path of", path, err)
	}
	}
	fmt.Println(strings.Join(res, " "))
	} else {
	fmt.Println(varData[varName])
	}
	}
	}

	func dumpVars(ctx build.Context, config build.Config, args []string, _ string) {
	flags := flag.NewFlagSet("dumpvars", flag.ExitOnError)
	flags.Usage = func() {
	fmt.Fprintf(ctx.Writer, "usage: %s --dumpvars-mode [--vars=\"VAR VAR ...\"]\n\n", os.Args[0])
	fmt.Fprintln(ctx.Writer, "In dumpvars mode, dump the values of one or more legacy make variables, in")
	fmt.Fprintln(ctx.Writer, "shell syntax. The resulting output may be sourced directly into a shell to")
	fmt.Fprintln(ctx.Writer, "set corresponding shell variables.")
	fmt.Fprintln(ctx.Writer, "")

	fmt.Fprintln(ctx.Writer, "'report_config' is a special case that dumps a variable containing the")
	fmt.Fprintln(ctx.Writer, "human-readable config banner from the beginning of the build.")
	fmt.Fprintln(ctx.Writer, "")
	flags.PrintDefaults()
	}

	varsStr := flags.String("vars", "", "Space-separated list of variables to dump")
	absVarsStr := flags.String("abs-vars", "", "Space-separated list of variables to dump (using absolute paths)")

	varPrefix := flags.String("var-prefix", "", "String to prepend to all variable names when dumping")
	absVarPrefix := flags.String("abs-var-prefix", "", "String to prepent to all absolute path variable names when dumping")

	flags.Parse(args)

	if flags.NArg() != 0 {
	flags.Usage()
	os.Exit(1)
	}

	vars := strings.Fields(*varsStr)
	absVars := strings.Fields(*absVarsStr)

	allVars := append([]string{}, vars...)
	allVars = append(allVars, absVars...)

	if i := indexList("report_config", allVars); i != -1 {
	allVars = append(allVars[:i], allVars[i+1:]...)
	allVars = append(allVars, build.BannerVars...)
	}

	if len(allVars) == 0 {
	return
	}

	varData, err := build.DumpMakeVars(ctx, config, nil, allVars)
	if err != nil {
	ctx.Fatal(err)
	}

	for _, name := range vars {
	if name == "report_config" {
	fmt.Printf("%sreport_config='%s'\n", *varPrefix, build.Banner(varData))
	} else {
	fmt.Printf("%s%s='%s'\n", *varPrefix, name, varData[name])
	}
	}
	for _, name := range absVars {
	var res []string
	for _, path := range strings.Fields(varData[name]) {
	abs, err := filepath.Abs(path)
	if err != nil {
	ctx.Fatalln("Failed to get absolute path of", path, err)
	}
	res = append(res, abs)
	}
	fmt.Printf("%s%s='%s'\n", *absVarPrefix, name, strings.Join(res, " "))
	}
	}

	func stdio() terminal.StdioInterface {
	return terminal.StdioImpl{}
	}

	// dumpvar and dumpvars use stdout to output variable values, so use stderr instead of stdout when
	// reporting events to keep stdout clean from noise.
	func customStdio() terminal.StdioInterface {
	return terminal.NewCustomStdio(os.Stdin, os.Stderr, os.Stderr)
	}

	// dumpVarConfig does not require any arguments to be parsed by the NewConfig.
	func dumpVarConfig(ctx build.Context, args ...string) build.Config {
	return build.NewConfig(ctx)
	}

	func buildActionConfig(ctx build.Context, args ...string) build.Config {
	flags := flag.NewFlagSet("build-mode", flag.ContinueOnError)
	flags.Usage = func() {
	fmt.Fprintf(ctx.Writer, "usage: %s --build-mode --dir=<path> <build action> [<build arg 1> <build arg 2> ...]\n\n", os.Args[0])
	fmt.Fprintln(ctx.Writer, "In build mode, build the set of modules based on the specified build")
	fmt.Fprintln(ctx.Writer, "action. The --dir flag is required to determine what is needed to")
	fmt.Fprintln(ctx.Writer, "build in the source tree based on the build action. See below for")
	fmt.Fprintln(ctx.Writer, "the list of acceptable build action flags.")
	fmt.Fprintln(ctx.Writer, "")
	flags.PrintDefaults()
	}

	buildActionFlags := []struct {
	name string
	description string
	action build.BuildAction
	set bool
	}{{
	name: "all-modules",
	description: "Build action: build from the top of the source tree.",
	action: build.BUILD_MODULES,
	}, {
	// This is redirecting to mma build command behaviour. Once it has soaked for a
	// while, the build command is deleted from here once it has been removed from the
	// envsetup.sh.
	name: "modules-in-a-dir-no-deps",
	description: "Build action: builds all of the modules in the current directory without their dependencies.",
	action: build.BUILD_MODULES_IN_A_DIRECTORY,
	}, {
	// This is redirecting to mmma build command behaviour. Once it has soaked for a
	// while, the build command is deleted from here once it has been removed from the
	// envsetup.sh.
	name: "modules-in-dirs-no-deps",
	description: "Build action: builds all of the modules in the supplied directories without their dependencies.",
	action: build.BUILD_MODULES_IN_DIRECTORIES,
	}, {
	name: "modules-in-a-dir",
	description: "Build action: builds all of the modules in the current directory and their dependencies.",
	action: build.BUILD_MODULES_IN_A_DIRECTORY,
	}, {
	name: "modules-in-dirs",
	description: "Build action: builds all of the modules in the supplied directories and their dependencies.",
	action: build.BUILD_MODULES_IN_DIRECTORIES,
	}}
	for i, flag := range buildActionFlags {
	flags.BoolVar(&buildActionFlags[i].set, flag.name, false, flag.description)
	}
	dir := flags.String("dir", "", "Directory of the executed build command.")

	// Only interested in the first two args which defines the build action and the directory.
	// The remaining arguments are passed down to the config.
	const numBuildActionFlags = 2
	if len(args) < numBuildActionFlags {
	flags.Usage()
	ctx.Fatalln("Improper build action arguments.")
	}
	flags.Parse(args[0:numBuildActionFlags])

	// The next block of code is to validate that exactly one build action is set and the dir flag
	// is specified.
	buildActionCount := 0
	var buildAction build.BuildAction
	for _, flag := range buildActionFlags {
	if flag.set {
	buildActionCount++
	buildAction = flag.action
	}
	}
	if buildActionCount != 1 {
	ctx.Fatalln("Build action not defined.")
	}
	if *dir == "" {
	ctx.Fatalln("-dir not specified.")
	}

	// Remove the build action flags from the args as they are not recognized by the config.
	args = args[numBuildActionFlags:]
	return build.NewBuildActionConfig(buildAction, *dir, ctx, args...)
	}

	func runMake(ctx build.Context, config build.Config, _ []string, logsDir string) {
	if config.IsVerbose() {
	writer := ctx.Writer
	fmt.Fprintln(writer, "! The argument `showcommands` is no longer supported.")
	fmt.Fprintln(writer, "! Instead, the verbose log is always written to a compressed file in the output dir:")
	fmt.Fprintln(writer, "!")
	fmt.Fprintf(writer, "! gzip -cd %s/verbose.log.gz \| less -R\n", logsDir)
	fmt.Fprintln(writer, "!")
	fmt.Fprintln(writer, "! Older versions are saved in verbose.log.#.gz files")
	fmt.Fprintln(writer, "")
	select {
	case <-time.After(5 * time.Second):
	case <-ctx.Done():
	return
	}
	}

	if _, ok := config.Environment().Get("ONE_SHOT_MAKEFILE"); ok {
	writer := ctx.Writer
	fmt.Fprintln(writer, "! The variable `ONE_SHOT_MAKEFILE` is obsolete.")
	fmt.Fprintln(writer, "!")
	fmt.Fprintln(writer, "! If you're using `mm`, you'll need to run `source build/envsetup.sh` to update.")
	fmt.Fprintln(writer, "!")
	fmt.Fprintln(writer, "! Otherwise, either specify a module name with m, or use mma / MODULES-IN-...")
	fmt.Fprintln(writer, "")
	ctx.Fatal("done")
	}

	build.Build(ctx, config)
	}

	// getCommand finds the appropriate command based on args[1] flag. args[0]
	// is the soong_ui filename.
	func getCommand(args []string) (*command, []string, error) {
	if len(args) < 2 {
	return nil, nil, fmt.Errorf("Too few arguments: %q", args)
	}

	for _, c := range commands {
	if c.flag == args[1] {
	return &c, args[2:], nil
	}
	}

	// command not found
	flags := make([]string, len(commands))
	for i, c := range commands {
	flags[i] = c.flag
	}
	return nil, nil, fmt.Errorf("Command not found: %q\nDid you mean one of these: %q", args, flags)
	}

	// For Bazel support, this moves files and directories from e.g. out/dist/$f to DIST_DIR/$f if necessary.
	func populateExternalDistDir(ctx build.Context, config build.Config) {
	// Make sure that internalDistDirPath and externalDistDirPath are both absolute paths, so we can compare them
	var err error
	var internalDistDirPath string
	var externalDistDirPath string
	if internalDistDirPath, err = filepath.Abs(config.DistDir()); err != nil {
	ctx.Fatalf("Unable to find absolute path of %s: %s", internalDistDirPath, err)
	}
	if externalDistDirPath, err = filepath.Abs(config.RealDistDir()); err != nil {
	ctx.Fatalf("Unable to find absolute path of %s: %s", externalDistDirPath, err)
	}
	if externalDistDirPath == internalDistDirPath {
	return
	}

	// Make sure the internal DIST_DIR actually exists before trying to read from it
	if _, err = os.Stat(internalDistDirPath); os.IsNotExist(err) {
	ctx.Println("Skipping Bazel dist dir migration - nothing to do!")
	return
	}

	// Make sure the external DIST_DIR actually exists before trying to write to it
	if err = os.MkdirAll(externalDistDirPath, 0755); err != nil {
	ctx.Fatalf("Unable to make directory %s: %s", externalDistDirPath, err)
	}

	ctx.Println("Populating external DIST_DIR...")

	populateExternalDistDirHelper(ctx, config, internalDistDirPath, externalDistDirPath)
	}

	func populateExternalDistDirHelper(ctx build.Context, config build.Config, internalDistDirPath string, externalDistDirPath string) {
	files, err := ioutil.ReadDir(internalDistDirPath)
	if err != nil {
	ctx.Fatalf("Can't read internal distdir %s: %s", internalDistDirPath, err)
	}
	for _, f := range files {
	internalFilePath := filepath.Join(internalDistDirPath, f.Name())
	externalFilePath := filepath.Join(externalDistDirPath, f.Name())

	if f.IsDir() {
	// Moving a directory - check if there is an existing directory to merge with
	externalLstat, err := os.Lstat(externalFilePath)
	if err != nil {
	if !os.IsNotExist(err) {
	ctx.Fatalf("Can't lstat external %s: %s", externalDistDirPath, err)
	}
	// Otherwise, if the error was os.IsNotExist, that's fine and we fall through to the rename at the bottom
	} else {
	if externalLstat.IsDir() {
	// Existing dir - try to merge the directories?
	populateExternalDistDirHelper(ctx, config, internalFilePath, externalFilePath)
	continue
	} else {
	// Existing file being replaced with a directory. Delete the existing file...
	if err := os.RemoveAll(externalFilePath); err != nil {
	ctx.Fatalf("Unable to remove existing %s: %s", externalFilePath, err)
	}
	}
	}
	} else {
	// Moving a file (not a dir) - delete any existing file or directory
	if err := os.RemoveAll(externalFilePath); err != nil {
	ctx.Fatalf("Unable to remove existing %s: %s", externalFilePath, err)
	}
	}

	// The actual move - do a rename instead of a copy in order to save disk space.
	if err := os.Rename(internalFilePath, externalFilePath); err != nil {
	ctx.Fatalf("Unable to rename %s -> %s due to error %s", internalFilePath, externalFilePath, err)
	}
	}
	}

	func setMaxFiles(ctx build.Context) {
	var limits syscall.Rlimit

	err := syscall.Getrlimit(syscall.RLIMIT_NOFILE, &limits)
	if err != nil {
	ctx.Println("Failed to get file limit:", err)
	return
	}

	ctx.Verbosef("Current file limits: %d soft, %d hard", limits.Cur, limits.Max)
	if limits.Cur == limits.Max {
	return
	}

	limits.Cur = limits.Max
	err = syscall.Setrlimit(syscall.RLIMIT_NOFILE, &limits)
	if err != nil {
	ctx.Println("Failed to increase file limit:", err)
	}
	}