// 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 build import ( "fmt" "os" "path/filepath" "sort" "strconv" "strings" "time" "android/soong/ui/metrics" "android/soong/ui/status" ) // Constructs and runs the Ninja command line with a restricted set of // environment variables. It's important to restrict the environment Ninja runs // for hermeticity reasons, and to avoid spurious rebuilds. func runNinja(ctx Context, config Config) { ctx.BeginTrace(metrics.PrimaryNinja, "ninja") defer ctx.EndTrace() // Sets up the FIFO status updater that reads the Ninja protobuf output, and // translates it to the soong_ui status output, displaying real-time // progress of the build. fifo := filepath.Join(config.OutDir(), ".ninja_fifo") nr := status.NewNinjaReader(ctx, ctx.Status.StartTool(), fifo) defer nr.Close() executable := config.PrebuiltBuildTool("ninja") args := []string{ "-d", "keepdepfile", "-d", "keeprsp", "-d", "stats", "--frontend_file", fifo, } args = append(args, config.NinjaArgs()...) var parallel int if config.UseRemoteBuild() { parallel = config.RemoteParallel() } else { parallel = config.Parallel() } args = append(args, "-j", strconv.Itoa(parallel)) if config.keepGoing != 1 { args = append(args, "-k", strconv.Itoa(config.keepGoing)) } args = append(args, "-f", config.CombinedNinjaFile()) args = append(args, "-o", "usesphonyoutputs=yes", "-w", "dupbuild=err", "-w", "missingdepfile=err") cmd := Command(ctx, config, "ninja", executable, args...) // Set up the nsjail sandbox Ninja runs in. cmd.Sandbox = ninjaSandbox if config.HasKatiSuffix() { // Reads and executes a shell script from Kati that sets/unsets the // environment Ninja runs in. cmd.Environment.AppendFromKati(config.KatiEnvFile()) } // Allow both NINJA_ARGS and NINJA_EXTRA_ARGS, since both have been // used in the past to specify extra ninja arguments. if extra, ok := cmd.Environment.Get("NINJA_ARGS"); ok { cmd.Args = append(cmd.Args, strings.Fields(extra)...) } if extra, ok := cmd.Environment.Get("NINJA_EXTRA_ARGS"); ok { cmd.Args = append(cmd.Args, strings.Fields(extra)...) } ninjaHeartbeatDuration := time.Minute * 5 // Get the ninja heartbeat interval from the environment before it's filtered away later. if overrideText, ok := cmd.Environment.Get("NINJA_HEARTBEAT_INTERVAL"); ok { // For example, "1m" overrideDuration, err := time.ParseDuration(overrideText) if err == nil && overrideDuration.Seconds() > 0 { ninjaHeartbeatDuration = overrideDuration } } // Filter the environment, as ninja does not rebuild files when environment // variables change. // // Anything listed here must not change the output of rules/actions when the // value changes, otherwise incremental builds may be unsafe. Vars // explicitly set to stable values elsewhere in soong_ui are fine. // // For the majority of cases, either Soong or the makefiles should be // replicating any necessary environment variables in the command line of // each action that needs it. if cmd.Environment.IsEnvTrue("ALLOW_NINJA_ENV") { ctx.Println("Allowing all environment variables during ninja; incremental builds may be unsafe.") } else { cmd.Environment.Allow(append([]string{ // Set the path to a symbolizer (e.g. llvm-symbolizer) so ASAN-based // tools can symbolize crashes. "ASAN_SYMBOLIZER_PATH", "HOME", "JAVA_HOME", "LANG", "LC_MESSAGES", "OUT_DIR", "PATH", "PWD", // https://docs.python.org/3/using/cmdline.html#envvar-PYTHONDONTWRITEBYTECODE "PYTHONDONTWRITEBYTECODE", "TMPDIR", "USER", // TODO: remove these carefully // Options for the address sanitizer. "ASAN_OPTIONS", // The list of Android app modules to be built in an unbundled manner. "TARGET_BUILD_APPS", // The variant of the product being built. e.g. eng, userdebug, debug. "TARGET_BUILD_VARIANT", // The product name of the product being built, e.g. aosp_arm, aosp_flame. "TARGET_PRODUCT", // b/147197813 - used by art-check-debug-apex-gen "EMMA_INSTRUMENT_FRAMEWORK", // RBE client "RBE_compare", "RBE_exec_root", "RBE_exec_strategy", "RBE_invocation_id", "RBE_log_dir", "RBE_platform", "RBE_remote_accept_cache", "RBE_remote_update_cache", "RBE_server_address", // TODO: remove old FLAG_ variables. "FLAG_compare", "FLAG_exec_root", "FLAG_exec_strategy", "FLAG_invocation_id", "FLAG_log_dir", "FLAG_platform", "FLAG_remote_accept_cache", "FLAG_remote_update_cache", "FLAG_server_address", // ccache settings "CCACHE_COMPILERCHECK", "CCACHE_SLOPPINESS", "CCACHE_BASEDIR", "CCACHE_CPP2", "CCACHE_DIR", }, config.BuildBrokenNinjaUsesEnvVars()...)...) } cmd.Environment.Set("DIST_DIR", config.DistDir()) cmd.Environment.Set("SHELL", "/bin/bash") // Print the environment variables that Ninja is operating in. ctx.Verboseln("Ninja environment: ") envVars := cmd.Environment.Environ() sort.Strings(envVars) for _, envVar := range envVars { ctx.Verbosef(" %s", envVar) } // Poll the Ninja log for updates regularly based on the heartbeat // frequency. If it isn't updated enough, then we want to surface the // possibility that Ninja is stuck, to the user. done := make(chan struct{}) defer close(done) ticker := time.NewTicker(ninjaHeartbeatDuration) defer ticker.Stop() ninjaChecker := &ninjaStucknessChecker{ logPath: filepath.Join(config.OutDir(), ".ninja_log"), } go func() { for { select { case <-ticker.C: ninjaChecker.check(ctx, config) case <-done: return } } }() ctx.Status.Status("Starting ninja...") cmd.RunAndStreamOrFatal() } // A simple struct for checking if Ninja gets stuck, using timestamps. type ninjaStucknessChecker struct { logPath string prevModTime time.Time } // Check that a file has been modified since the last time it was checked. If // the mod time hasn't changed, then assume that Ninja got stuck, and print // diagnostics for debugging. func (c *ninjaStucknessChecker) check(ctx Context, config Config) { info, err := os.Stat(c.logPath) var newModTime time.Time if err == nil { newModTime = info.ModTime() } if newModTime == c.prevModTime { // The Ninja file hasn't been modified since the last time it was // checked, so Ninja could be stuck. Output some diagnostics. ctx.Verbosef("ninja may be stuck; last update to %v was %v. dumping process tree...", c.logPath, newModTime) // The "pstree" command doesn't exist on Mac, but "pstree" on Linux // gives more convenient output than "ps" So, we try pstree first, and // ps second commandText := fmt.Sprintf("pstree -pal %v || ps -ef", os.Getpid()) cmd := Command(ctx, config, "dump process tree", "bash", "-c", commandText) output := cmd.CombinedOutputOrFatal() ctx.Verbose(string(output)) ctx.Verbosef("done\n") } c.prevModTime = newModTime }