// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package base import ( "cmd/internal/cov/covcmd" "encoding/json" "flag" "fmt" "internal/buildcfg" "internal/platform" "log" "os" "reflect" "runtime" "strings" "cmd/internal/obj" "cmd/internal/objabi" "cmd/internal/sys" ) func usage() { fmt.Fprintf(os.Stderr, "usage: compile [options] file.go...\n") objabi.Flagprint(os.Stderr) Exit(2) } // Flag holds the parsed command-line flags. // See ParseFlag for non-zero defaults. var Flag CmdFlags // A CountFlag is a counting integer flag. // It accepts -name=value to set the value directly, // but it also accepts -name with no =value to increment the count. type CountFlag int // CmdFlags defines the command-line flags (see var Flag). // Each struct field is a different flag, by default named for the lower-case of the field name. // If the flag name is a single letter, the default flag name is left upper-case. // If the flag name is "Lower" followed by a single letter, the default flag name is the lower-case of the last letter. // // If this default flag name can't be made right, the `flag` struct tag can be used to replace it, // but this should be done only in exceptional circumstances: it helps everyone if the flag name // is obvious from the field name when the flag is used elsewhere in the compiler sources. // The `flag:"-"` struct tag makes a field invisible to the flag logic and should also be used sparingly. // // Each field must have a `help` struct tag giving the flag help message. // // The allowed field types are bool, int, string, pointers to those (for values stored elsewhere), // CountFlag (for a counting flag), and func(string) (for a flag that uses special code for parsing). type CmdFlags struct { // Single letters B CountFlag "help:\"disable bounds checking\"" C CountFlag "help:\"disable printing of columns in error messages\"" D string "help:\"set relative `path` for local imports\"" E CountFlag "help:\"debug symbol export\"" I func(string) "help:\"add `directory` to import search path\"" K CountFlag "help:\"debug missing line numbers\"" L CountFlag "help:\"also show actual source file names in error messages for positions affected by //line directives\"" N CountFlag "help:\"disable optimizations\"" S CountFlag "help:\"print assembly listing\"" // V is added by objabi.AddVersionFlag W CountFlag "help:\"debug parse tree after type checking\"" LowerC int "help:\"concurrency during compilation (1 means no concurrency)\"" LowerD flag.Value "help:\"enable debugging settings; try -d help\"" LowerE CountFlag "help:\"no limit on number of errors reported\"" LowerH CountFlag "help:\"halt on error\"" LowerJ CountFlag "help:\"debug runtime-initialized variables\"" LowerL CountFlag "help:\"disable inlining\"" LowerM CountFlag "help:\"print optimization decisions\"" LowerO string "help:\"write output to `file`\"" LowerP *string "help:\"set expected package import `path`\"" // &Ctxt.Pkgpath, set below LowerR CountFlag "help:\"debug generated wrappers\"" LowerT bool "help:\"enable tracing for debugging the compiler\"" LowerW CountFlag "help:\"debug type checking\"" LowerV *bool "help:\"increase debug verbosity\"" // Special characters Percent CountFlag "flag:\"%\" help:\"debug non-static initializers\"" CompilingRuntime bool "flag:\"+\" help:\"compiling runtime\"" // Longer names AsmHdr string "help:\"write assembly header to `file`\"" ASan bool "help:\"build code compatible with C/C++ address sanitizer\"" Bench string "help:\"append benchmark times to `file`\"" BlockProfile string "help:\"write block profile to `file`\"" BuildID string "help:\"record `id` as the build id in the export metadata\"" CPUProfile string "help:\"write cpu profile to `file`\"" Complete bool "help:\"compiling complete package (no C or assembly)\"" ClobberDead bool "help:\"clobber dead stack slots (for debugging)\"" ClobberDeadReg bool "help:\"clobber dead registers (for debugging)\"" Dwarf bool "help:\"generate DWARF symbols\"" DwarfBASEntries *bool "help:\"use base address selection entries in DWARF\"" // &Ctxt.UseBASEntries, set below DwarfLocationLists *bool "help:\"add location lists to DWARF in optimized mode\"" // &Ctxt.Flag_locationlists, set below Dynlink *bool "help:\"support references to Go symbols defined in other shared libraries\"" // &Ctxt.Flag_dynlink, set below EmbedCfg func(string) "help:\"read go:embed configuration from `file`\"" Env func(string) "help:\"add `definition` of the form key=value to environment\"" GenDwarfInl int "help:\"generate DWARF inline info records\"" // 0=disabled, 1=funcs, 2=funcs+formals/locals GoVersion string "help:\"required version of the runtime\"" ImportCfg func(string) "help:\"read import configuration from `file`\"" InstallSuffix string "help:\"set pkg directory `suffix`\"" JSON string "help:\"version,file for JSON compiler/optimizer detail output\"" Lang string "help:\"Go language version source code expects\"" LinkObj string "help:\"write linker-specific object to `file`\"" LinkShared *bool "help:\"generate code that will be linked against Go shared libraries\"" // &Ctxt.Flag_linkshared, set below Live CountFlag "help:\"debug liveness analysis\"" MSan bool "help:\"build code compatible with C/C++ memory sanitizer\"" MemProfile string "help:\"write memory profile to `file`\"" MemProfileRate int "help:\"set runtime.MemProfileRate to `rate`\"" MutexProfile string "help:\"write mutex profile to `file`\"" NoLocalImports bool "help:\"reject local (relative) imports\"" CoverageCfg func(string) "help:\"read coverage configuration from `file`\"" Pack bool "help:\"write to file.a instead of file.o\"" Race bool "help:\"enable race detector\"" Shared *bool "help:\"generate code that can be linked into a shared library\"" // &Ctxt.Flag_shared, set below SmallFrames bool "help:\"reduce the size limit for stack allocated objects\"" // small stacks, to diagnose GC latency; see golang.org/issue/27732 Spectre string "help:\"enable spectre mitigations in `list` (all, index, ret)\"" Std bool "help:\"compiling standard library\"" SymABIs string "help:\"read symbol ABIs from `file`\"" TraceProfile string "help:\"write an execution trace to `file`\"" TrimPath string "help:\"remove `prefix` from recorded source file paths\"" WB bool "help:\"enable write barrier\"" // TODO: remove PgoProfile string "help:\"read profile from `file`\"" ErrorURL bool "help:\"print explanatory URL with error message if applicable\"" // Configuration derived from flags; not a flag itself. Cfg struct { Embed struct { // set by -embedcfg Patterns map[string][]string Files map[string]string } ImportDirs []string // appended to by -I ImportMap map[string]string // set by -importcfg PackageFile map[string]string // set by -importcfg; nil means not in use CoverageInfo *covcmd.CoverFixupConfig // set by -coveragecfg SpectreIndex bool // set by -spectre=index or -spectre=all // Whether we are adding any sort of code instrumentation, such as // when the race detector is enabled. Instrumenting bool } } func addEnv(s string) { i := strings.Index(s, "=") if i < 0 { log.Fatal("-env argument must be of the form key=value") } os.Setenv(s[:i], s[i+1:]) } // ParseFlags parses the command-line flags into Flag. func ParseFlags() { Flag.I = addImportDir Flag.LowerC = runtime.GOMAXPROCS(0) Flag.LowerD = objabi.NewDebugFlag(&Debug, DebugSSA) Flag.LowerP = &Ctxt.Pkgpath Flag.LowerV = &Ctxt.Debugvlog Flag.Dwarf = buildcfg.GOARCH != "wasm" Flag.DwarfBASEntries = &Ctxt.UseBASEntries Flag.DwarfLocationLists = &Ctxt.Flag_locationlists *Flag.DwarfLocationLists = true Flag.Dynlink = &Ctxt.Flag_dynlink Flag.EmbedCfg = readEmbedCfg Flag.Env = addEnv Flag.GenDwarfInl = 2 Flag.ImportCfg = readImportCfg Flag.CoverageCfg = readCoverageCfg Flag.LinkShared = &Ctxt.Flag_linkshared Flag.Shared = &Ctxt.Flag_shared Flag.WB = true Debug.ConcurrentOk = true Debug.MaxShapeLen = 500 Debug.InlFuncsWithClosures = 1 Debug.InlStaticInit = 1 Debug.PGOInline = 1 Debug.PGODevirtualize = 2 Debug.SyncFrames = -1 // disable sync markers by default Debug.ZeroCopy = 1 Debug.RangeFuncCheck = 1 Debug.Checkptr = -1 // so we can tell whether it is set explicitly Flag.Cfg.ImportMap = make(map[string]string) objabi.AddVersionFlag() // -V registerFlags() objabi.Flagparse(usage) if gcd := os.Getenv("GOCOMPILEDEBUG"); gcd != "" { // This will only override the flags set in gcd; // any others set on the command line remain set. Flag.LowerD.Set(gcd) } if Debug.Gossahash != "" { hashDebug = NewHashDebug("gossahash", Debug.Gossahash, nil) } // Compute whether we're compiling the runtime from the package path. Test // code can also use the flag to set this explicitly. if Flag.Std && objabi.LookupPkgSpecial(Ctxt.Pkgpath).Runtime { Flag.CompilingRuntime = true } // Three inputs govern loop iteration variable rewriting, hash, experiment, flag. // The loop variable rewriting is: // IF non-empty hash, then hash determines behavior (function+line match) (*) // ELSE IF experiment and flag==0, then experiment (set flag=1) // ELSE flag (note that build sets flag per-package), with behaviors: // -1 => no change to behavior. // 0 => no change to behavior (unless non-empty hash, see above) // 1 => apply change to likely-iteration-variable-escaping loops // 2 => apply change, log results // 11 => apply change EVERYWHERE, do not log results (for debugging/benchmarking) // 12 => apply change EVERYWHERE, log results (for debugging/benchmarking) // // The expected uses of the these inputs are, in believed most-likely to least likely: // GOEXPERIMENT=loopvar -- apply change to entire application // -gcflags=some_package=-d=loopvar=1 -- apply change to some_package (**) // -gcflags=some_package=-d=loopvar=2 -- apply change to some_package, log it // GOEXPERIMENT=loopvar -gcflags=some_package=-d=loopvar=-1 -- apply change to all but one package // GOCOMPILEDEBUG=loopvarhash=... -- search for failure cause // // (*) For debugging purposes, providing loopvar flag >= 11 will expand the hash-eligible set of loops to all. // (**) Loop semantics, changed or not, follow code from a package when it is inlined; that is, the behavior // of an application compiled with partially modified loop semantics does not depend on inlining. if Debug.LoopVarHash != "" { // This first little bit controls the inputs for debug-hash-matching. mostInlineOnly := true if strings.HasPrefix(Debug.LoopVarHash, "IL") { // When hash-searching on a position that is an inline site, default is to use the // most-inlined position only. This makes the hash faster, plus there's no point // reporting a problem with all the inlining; there's only one copy of the source. // However, if for some reason you wanted it per-site, you can get this. (The default // hash-search behavior for compiler debugging is at an inline site.) Debug.LoopVarHash = Debug.LoopVarHash[2:] mostInlineOnly = false } // end of testing trickiness LoopVarHash = NewHashDebug("loopvarhash", Debug.LoopVarHash, nil) if Debug.LoopVar < 11 { // >= 11 means all loops are rewrite-eligible Debug.LoopVar = 1 // 1 means those loops that syntactically escape their dcl vars are eligible. } LoopVarHash.SetInlineSuffixOnly(mostInlineOnly) } else if buildcfg.Experiment.LoopVar && Debug.LoopVar == 0 { Debug.LoopVar = 1 } if Debug.Fmahash != "" { FmaHash = NewHashDebug("fmahash", Debug.Fmahash, nil) } if Debug.PGOHash != "" { PGOHash = NewHashDebug("pgohash", Debug.PGOHash, nil) } if Flag.MSan && !platform.MSanSupported(buildcfg.GOOS, buildcfg.GOARCH) { log.Fatalf("%s/%s does not support -msan", buildcfg.GOOS, buildcfg.GOARCH) } if Flag.ASan && !platform.ASanSupported(buildcfg.GOOS, buildcfg.GOARCH) { log.Fatalf("%s/%s does not support -asan", buildcfg.GOOS, buildcfg.GOARCH) } if Flag.Race && !platform.RaceDetectorSupported(buildcfg.GOOS, buildcfg.GOARCH) { log.Fatalf("%s/%s does not support -race", buildcfg.GOOS, buildcfg.GOARCH) } if (*Flag.Shared || *Flag.Dynlink || *Flag.LinkShared) && !Ctxt.Arch.InFamily(sys.AMD64, sys.ARM, sys.ARM64, sys.I386, sys.Loong64, sys.MIPS64, sys.PPC64, sys.RISCV64, sys.S390X) { log.Fatalf("%s/%s does not support -shared", buildcfg.GOOS, buildcfg.GOARCH) } parseSpectre(Flag.Spectre) // left as string for RecordFlags Ctxt.Flag_shared = Ctxt.Flag_dynlink || Ctxt.Flag_shared Ctxt.Flag_optimize = Flag.N == 0 Ctxt.Debugasm = int(Flag.S) Ctxt.Flag_maymorestack = Debug.MayMoreStack Ctxt.Flag_noRefName = Debug.NoRefName != 0 if flag.NArg() < 1 { usage() } if Flag.GoVersion != "" && Flag.GoVersion != runtime.Version() { fmt.Printf("compile: version %q does not match go tool version %q\n", runtime.Version(), Flag.GoVersion) Exit(2) } if *Flag.LowerP == "" { *Flag.LowerP = obj.UnlinkablePkg } if Flag.LowerO == "" { p := flag.Arg(0) if i := strings.LastIndex(p, "/"); i >= 0 { p = p[i+1:] } if runtime.GOOS == "windows" { if i := strings.LastIndex(p, `\`); i >= 0 { p = p[i+1:] } } if i := strings.LastIndex(p, "."); i >= 0 { p = p[:i] } suffix := ".o" if Flag.Pack { suffix = ".a" } Flag.LowerO = p + suffix } switch { case Flag.Race && Flag.MSan: log.Fatal("cannot use both -race and -msan") case Flag.Race && Flag.ASan: log.Fatal("cannot use both -race and -asan") case Flag.MSan && Flag.ASan: log.Fatal("cannot use both -msan and -asan") } if Flag.Race || Flag.MSan || Flag.ASan { // -race, -msan and -asan imply -d=checkptr for now. if Debug.Checkptr == -1 { // if not set explicitly Debug.Checkptr = 1 } } if Flag.LowerC < 1 { log.Fatalf("-c must be at least 1, got %d", Flag.LowerC) } if !concurrentBackendAllowed() { Flag.LowerC = 1 } if Flag.CompilingRuntime { // It is not possible to build the runtime with no optimizations, // because the compiler cannot eliminate enough write barriers. Flag.N = 0 Ctxt.Flag_optimize = true // Runtime can't use -d=checkptr, at least not yet. Debug.Checkptr = 0 // Fuzzing the runtime isn't interesting either. Debug.Libfuzzer = 0 } if Debug.Checkptr == -1 { // if not set explicitly Debug.Checkptr = 0 } // set via a -d flag Ctxt.Debugpcln = Debug.PCTab } // registerFlags adds flag registrations for all the fields in Flag. // See the comment on type CmdFlags for the rules. func registerFlags() { var ( boolType = reflect.TypeOf(bool(false)) intType = reflect.TypeOf(int(0)) stringType = reflect.TypeOf(string("")) ptrBoolType = reflect.TypeOf(new(bool)) ptrIntType = reflect.TypeOf(new(int)) ptrStringType = reflect.TypeOf(new(string)) countType = reflect.TypeOf(CountFlag(0)) funcType = reflect.TypeOf((func(string))(nil)) ) v := reflect.ValueOf(&Flag).Elem() t := v.Type() for i := 0; i < t.NumField(); i++ { f := t.Field(i) if f.Name == "Cfg" { continue } var name string if len(f.Name) == 1 { name = f.Name } else if len(f.Name) == 6 && f.Name[:5] == "Lower" && 'A' <= f.Name[5] && f.Name[5] <= 'Z' { name = string(rune(f.Name[5] + 'a' - 'A')) } else { name = strings.ToLower(f.Name) } if tag := f.Tag.Get("flag"); tag != "" { name = tag } help := f.Tag.Get("help") if help == "" { panic(fmt.Sprintf("base.Flag.%s is missing help text", f.Name)) } if k := f.Type.Kind(); (k == reflect.Ptr || k == reflect.Func) && v.Field(i).IsNil() { panic(fmt.Sprintf("base.Flag.%s is uninitialized %v", f.Name, f.Type)) } switch f.Type { case boolType: p := v.Field(i).Addr().Interface().(*bool) flag.BoolVar(p, name, *p, help) case intType: p := v.Field(i).Addr().Interface().(*int) flag.IntVar(p, name, *p, help) case stringType: p := v.Field(i).Addr().Interface().(*string) flag.StringVar(p, name, *p, help) case ptrBoolType: p := v.Field(i).Interface().(*bool) flag.BoolVar(p, name, *p, help) case ptrIntType: p := v.Field(i).Interface().(*int) flag.IntVar(p, name, *p, help) case ptrStringType: p := v.Field(i).Interface().(*string) flag.StringVar(p, name, *p, help) case countType: p := (*int)(v.Field(i).Addr().Interface().(*CountFlag)) objabi.Flagcount(name, help, p) case funcType: f := v.Field(i).Interface().(func(string)) objabi.Flagfn1(name, help, f) default: if val, ok := v.Field(i).Interface().(flag.Value); ok { flag.Var(val, name, help) } else { panic(fmt.Sprintf("base.Flag.%s has unexpected type %s", f.Name, f.Type)) } } } } // concurrentFlagOk reports whether the current compiler flags // are compatible with concurrent compilation. func concurrentFlagOk() bool { // TODO(rsc): Many of these are fine. Remove them. return Flag.Percent == 0 && Flag.E == 0 && Flag.K == 0 && Flag.L == 0 && Flag.LowerH == 0 && Flag.LowerJ == 0 && Flag.LowerM == 0 && Flag.LowerR == 0 } func concurrentBackendAllowed() bool { if !concurrentFlagOk() { return false } // Debug.S by itself is ok, because all printing occurs // while writing the object file, and that is non-concurrent. // Adding Debug_vlog, however, causes Debug.S to also print // while flushing the plist, which happens concurrently. if Ctxt.Debugvlog || !Debug.ConcurrentOk || Flag.Live > 0 { return false } // TODO: Test and delete this condition. if buildcfg.Experiment.FieldTrack { return false } // TODO: fix races and enable the following flags if Ctxt.Flag_dynlink || Flag.Race { return false } return true } func addImportDir(dir string) { if dir != "" { Flag.Cfg.ImportDirs = append(Flag.Cfg.ImportDirs, dir) } } func readImportCfg(file string) { if Flag.Cfg.ImportMap == nil { Flag.Cfg.ImportMap = make(map[string]string) } Flag.Cfg.PackageFile = map[string]string{} data, err := os.ReadFile(file) if err != nil { log.Fatalf("-importcfg: %v", err) } for lineNum, line := range strings.Split(string(data), "\n") { lineNum++ // 1-based line = strings.TrimSpace(line) if line == "" || strings.HasPrefix(line, "#") { continue } verb, args, found := strings.Cut(line, " ") if found { args = strings.TrimSpace(args) } before, after, hasEq := strings.Cut(args, "=") switch verb { default: log.Fatalf("%s:%d: unknown directive %q", file, lineNum, verb) case "importmap": if !hasEq || before == "" || after == "" { log.Fatalf(`%s:%d: invalid importmap: syntax is "importmap old=new"`, file, lineNum) } Flag.Cfg.ImportMap[before] = after case "packagefile": if !hasEq || before == "" || after == "" { log.Fatalf(`%s:%d: invalid packagefile: syntax is "packagefile path=filename"`, file, lineNum) } Flag.Cfg.PackageFile[before] = after } } } func readCoverageCfg(file string) { var cfg covcmd.CoverFixupConfig data, err := os.ReadFile(file) if err != nil { log.Fatalf("-coveragecfg: %v", err) } if err := json.Unmarshal(data, &cfg); err != nil { log.Fatalf("error reading -coveragecfg file %q: %v", file, err) } Flag.Cfg.CoverageInfo = &cfg } func readEmbedCfg(file string) { data, err := os.ReadFile(file) if err != nil { log.Fatalf("-embedcfg: %v", err) } if err := json.Unmarshal(data, &Flag.Cfg.Embed); err != nil { log.Fatalf("%s: %v", file, err) } if Flag.Cfg.Embed.Patterns == nil { log.Fatalf("%s: invalid embedcfg: missing Patterns", file) } if Flag.Cfg.Embed.Files == nil { log.Fatalf("%s: invalid embedcfg: missing Files", file) } } // parseSpectre parses the spectre configuration from the string s. func parseSpectre(s string) { for _, f := range strings.Split(s, ",") { f = strings.TrimSpace(f) switch f { default: log.Fatalf("unknown setting -spectre=%s", f) case "": // nothing case "all": Flag.Cfg.SpectreIndex = true Ctxt.Retpoline = true case "index": Flag.Cfg.SpectreIndex = true case "ret": Ctxt.Retpoline = true } } if Flag.Cfg.SpectreIndex { switch buildcfg.GOARCH { case "amd64": // ok default: log.Fatalf("GOARCH=%s does not support -spectre=index", buildcfg.GOARCH) } } }