// Copyright 2021 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 buildcfg provides access to the build configuration // described by the current environment. It is for use by build tools // such as cmd/go or cmd/compile and for setting up go/build's Default context. // // Note that it does NOT provide access to the build configuration used to // build the currently-running binary. For that, use runtime.GOOS etc // as well as internal/goexperiment. package buildcfg import ( "fmt" "os" "path/filepath" "strconv" "strings" ) var ( GOROOT = os.Getenv("GOROOT") // cached for efficiency GOARCH = envOr("GOARCH", defaultGOARCH) GOOS = envOr("GOOS", defaultGOOS) GO386 = envOr("GO386", DefaultGO386) GOAMD64 = goamd64() GOARM = goarm() GOARM64 = goarm64() GOMIPS = gomips() GOMIPS64 = gomips64() GOPPC64 = goppc64() GORISCV64 = goriscv64() GOWASM = gowasm() ToolTags = toolTags() GO_LDSO = defaultGO_LDSO Version = version ) // Error is one of the errors found (if any) in the build configuration. var Error error // Check exits the program with a fatal error if Error is non-nil. func Check() { if Error != nil { fmt.Fprintf(os.Stderr, "%s: %v\n", filepath.Base(os.Args[0]), Error) os.Exit(2) } } func envOr(key, value string) string { if x := os.Getenv(key); x != "" { return x } return value } func goamd64() int { switch v := envOr("GOAMD64", DefaultGOAMD64); v { case "v1": return 1 case "v2": return 2 case "v3": return 3 case "v4": return 4 } Error = fmt.Errorf("invalid GOAMD64: must be v1, v2, v3, v4") return int(DefaultGOAMD64[len("v")] - '0') } type GoarmFeatures struct { Version int SoftFloat bool } func (g GoarmFeatures) String() string { armStr := strconv.Itoa(g.Version) if g.SoftFloat { armStr += ",softfloat" } else { armStr += ",hardfloat" } return armStr } func goarm() (g GoarmFeatures) { const ( softFloatOpt = ",softfloat" hardFloatOpt = ",hardfloat" ) def := DefaultGOARM if GOOS == "android" && GOARCH == "arm" { // Android arm devices always support GOARM=7. def = "7" } v := envOr("GOARM", def) floatSpecified := false if strings.HasSuffix(v, softFloatOpt) { g.SoftFloat = true floatSpecified = true v = v[:len(v)-len(softFloatOpt)] } if strings.HasSuffix(v, hardFloatOpt) { floatSpecified = true v = v[:len(v)-len(hardFloatOpt)] } switch v { case "5": g.Version = 5 case "6": g.Version = 6 case "7": g.Version = 7 default: Error = fmt.Errorf("invalid GOARM: must start with 5, 6, or 7, and may optionally end in either %q or %q", hardFloatOpt, softFloatOpt) g.Version = int(def[0] - '0') } // 5 defaults to softfloat. 6 and 7 default to hardfloat. if !floatSpecified && g.Version == 5 { g.SoftFloat = true } return } type Goarm64Features struct { Version string // Large Systems Extension LSE bool // ARM v8.0 Cryptographic Extension. It includes the following features: // * FEAT_AES, which includes the AESD and AESE instructions. // * FEAT_PMULL, which includes the PMULL, PMULL2 instructions. // * FEAT_SHA1, which includes the SHA1* instructions. // * FEAT_SHA256, which includes the SHA256* instructions. Crypto bool } func (g Goarm64Features) String() string { arm64Str := g.Version if g.LSE { arm64Str += ",lse" } if g.Crypto { arm64Str += ",crypto" } return arm64Str } func ParseGoarm64(v string) (g Goarm64Features, e error) { const ( lseOpt = ",lse" cryptoOpt = ",crypto" ) g.LSE = false g.Crypto = false // We allow any combination of suffixes, in any order for { if strings.HasSuffix(v, lseOpt) { g.LSE = true v = v[:len(v)-len(lseOpt)] continue } if strings.HasSuffix(v, cryptoOpt) { g.Crypto = true v = v[:len(v)-len(cryptoOpt)] continue } break } switch v { case "v8.0": g.Version = v case "v8.1", "v8.2", "v8.3", "v8.4", "v8.5", "v8.6", "v8.7", "v8.8", "v8.9", "v9.0", "v9.1", "v9.2", "v9.3", "v9.4", "v9.5": g.Version = v // LSE extension is mandatory starting from 8.1 g.LSE = true default: e = fmt.Errorf("invalid GOARM64: must start with v8.{0-9} or v9.{0-5} and may optionally end in %q and/or %q", lseOpt, cryptoOpt) g.Version = DefaultGOARM64 } return } func goarm64() (g Goarm64Features) { g, Error = ParseGoarm64(envOr("GOARM64", DefaultGOARM64)) return } // Returns true if g supports giving ARM64 ISA // Note that this function doesn't accept / test suffixes (like ",lse" or ",crypto") func (g Goarm64Features) Supports(s string) bool { // We only accept "v{8-9}.{0-9}. Everything else is malformed. if len(s) != 4 { return false } major := s[1] minor := s[3] // We only accept "v{8-9}.{0-9}. Everything else is malformed. if major < '8' || major > '9' || minor < '0' || minor > '9' || s[0] != 'v' || s[2] != '.' { return false } g_major := g.Version[1] g_minor := g.Version[3] if major == g_major { return minor <= g_minor } else if g_major == '9' { // v9.0 diverged from v8.5. This means we should compare with g_minor increased by five. return minor <= g_minor+5 } else { return false } } func gomips() string { switch v := envOr("GOMIPS", DefaultGOMIPS); v { case "hardfloat", "softfloat": return v } Error = fmt.Errorf("invalid GOMIPS: must be hardfloat, softfloat") return DefaultGOMIPS } func gomips64() string { switch v := envOr("GOMIPS64", DefaultGOMIPS64); v { case "hardfloat", "softfloat": return v } Error = fmt.Errorf("invalid GOMIPS64: must be hardfloat, softfloat") return DefaultGOMIPS64 } func goppc64() int { switch v := envOr("GOPPC64", DefaultGOPPC64); v { case "power8": return 8 case "power9": return 9 case "power10": return 10 } Error = fmt.Errorf("invalid GOPPC64: must be power8, power9, power10") return int(DefaultGOPPC64[len("power")] - '0') } func goriscv64() int { switch v := envOr("GORISCV64", DefaultGORISCV64); v { case "rva20u64": return 20 case "rva22u64": return 22 } Error = fmt.Errorf("invalid GORISCV64: must be rva20u64, rva22u64") v := DefaultGORISCV64[len("rva"):] i := strings.IndexFunc(v, func(r rune) bool { return r < '0' || r > '9' }) year, _ := strconv.Atoi(v[:i]) return year } type gowasmFeatures struct { SatConv bool SignExt bool } func (f gowasmFeatures) String() string { var flags []string if f.SatConv { flags = append(flags, "satconv") } if f.SignExt { flags = append(flags, "signext") } return strings.Join(flags, ",") } func gowasm() (f gowasmFeatures) { for _, opt := range strings.Split(envOr("GOWASM", ""), ",") { switch opt { case "satconv": f.SatConv = true case "signext": f.SignExt = true case "": // ignore default: Error = fmt.Errorf("invalid GOWASM: no such feature %q", opt) } } return } func Getgoextlinkenabled() string { return envOr("GO_EXTLINK_ENABLED", defaultGO_EXTLINK_ENABLED) } func toolTags() []string { tags := experimentTags() tags = append(tags, gogoarchTags()...) return tags } func experimentTags() []string { var list []string // For each experiment that has been enabled in the toolchain, define a // build tag with the same name but prefixed by "goexperiment." which can be // used for compiling alternative files for the experiment. This allows // changes for the experiment, like extra struct fields in the runtime, // without affecting the base non-experiment code at all. for _, exp := range Experiment.Enabled() { list = append(list, "goexperiment."+exp) } return list } // GOGOARCH returns the name and value of the GO$GOARCH setting. // For example, if GOARCH is "amd64" it might return "GOAMD64", "v2". func GOGOARCH() (name, value string) { switch GOARCH { case "386": return "GO386", GO386 case "amd64": return "GOAMD64", fmt.Sprintf("v%d", GOAMD64) case "arm": return "GOARM", GOARM.String() case "arm64": return "GOARM64", GOARM64.String() case "mips", "mipsle": return "GOMIPS", GOMIPS case "mips64", "mips64le": return "GOMIPS64", GOMIPS64 case "ppc64", "ppc64le": return "GOPPC64", fmt.Sprintf("power%d", GOPPC64) case "wasm": return "GOWASM", GOWASM.String() } return "", "" } func gogoarchTags() []string { switch GOARCH { case "386": return []string{GOARCH + "." + GO386} case "amd64": var list []string for i := 1; i <= GOAMD64; i++ { list = append(list, fmt.Sprintf("%s.v%d", GOARCH, i)) } return list case "arm": var list []string for i := 5; i <= GOARM.Version; i++ { list = append(list, fmt.Sprintf("%s.%d", GOARCH, i)) } return list case "arm64": var list []string major := int(GOARM64.Version[1] - '0') minor := int(GOARM64.Version[3] - '0') for i := 0; i <= minor; i++ { list = append(list, fmt.Sprintf("%s.v%d.%d", GOARCH, major, i)) } // ARM64 v9.x also includes support of v8.x+5 (i.e. v9.1 includes v8.(1+5) = v8.6). if major == 9 { for i := 0; i <= minor+5 && i <= 9; i++ { list = append(list, fmt.Sprintf("%s.v%d.%d", GOARCH, 8, i)) } } return list case "mips", "mipsle": return []string{GOARCH + "." + GOMIPS} case "mips64", "mips64le": return []string{GOARCH + "." + GOMIPS64} case "ppc64", "ppc64le": var list []string for i := 8; i <= GOPPC64; i++ { list = append(list, fmt.Sprintf("%s.power%d", GOARCH, i)) } return list case "riscv64": list := []string{GOARCH + "." + "rva20u64"} if GORISCV64 >= 22 { list = append(list, GOARCH+"."+"rva22u64") } return list case "wasm": var list []string if GOWASM.SatConv { list = append(list, GOARCH+".satconv") } if GOWASM.SignExt { list = append(list, GOARCH+".signext") } return list } return nil }