// 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. // Cgo; see doc.go for an overview. // TODO(rsc): // Emit correct line number annotations. // Make gc understand the annotations. package main import ( "flag" "fmt" "go/ast" "go/printer" "go/token" "internal/buildcfg" "io" "os" "path/filepath" "reflect" "runtime" "sort" "strings" "cmd/internal/edit" "cmd/internal/notsha256" "cmd/internal/objabi" ) // A Package collects information about the package we're going to write. type Package struct { PackageName string // name of package PackagePath string PtrSize int64 IntSize int64 GccOptions []string GccIsClang bool LdFlags []string // #cgo LDFLAGS Written map[string]bool Name map[string]*Name // accumulated Name from Files ExpFunc []*ExpFunc // accumulated ExpFunc from Files Decl []ast.Decl GoFiles []string // list of Go files GccFiles []string // list of gcc output files Preamble string // collected preamble for _cgo_export.h typedefs map[string]bool // type names that appear in the types of the objects we're interested in typedefList []typedefInfo noCallbacks map[string]bool // C function names with #cgo nocallback directive noEscapes map[string]bool // C function names with #cgo noescape directive } // A typedefInfo is an element on Package.typedefList: a typedef name // and the position where it was required. type typedefInfo struct { typedef string pos token.Pos } // A File collects information about a single Go input file. type File struct { AST *ast.File // parsed AST Comments []*ast.CommentGroup // comments from file Package string // Package name Preamble string // C preamble (doc comment on import "C") Ref []*Ref // all references to C.xxx in AST Calls []*Call // all calls to C.xxx in AST ExpFunc []*ExpFunc // exported functions for this file Name map[string]*Name // map from Go name to Name NamePos map[*Name]token.Pos // map from Name to position of the first reference NoCallbacks map[string]bool // C function names that with #cgo nocallback directive NoEscapes map[string]bool // C function names that with #cgo noescape directive Edit *edit.Buffer } func (f *File) offset(p token.Pos) int { return fset.Position(p).Offset } func nameKeys(m map[string]*Name) []string { var ks []string for k := range m { ks = append(ks, k) } sort.Strings(ks) return ks } // A Call refers to a call of a C.xxx function in the AST. type Call struct { Call *ast.CallExpr Deferred bool Done bool } // A Ref refers to an expression of the form C.xxx in the AST. type Ref struct { Name *Name Expr *ast.Expr Context astContext Done bool } func (r *Ref) Pos() token.Pos { return (*r.Expr).Pos() } var nameKinds = []string{"iconst", "fconst", "sconst", "type", "var", "fpvar", "func", "macro", "not-type"} // A Name collects information about C.xxx. type Name struct { Go string // name used in Go referring to package C Mangle string // name used in generated Go C string // name used in C Define string // #define expansion Kind string // one of the nameKinds Type *Type // the type of xxx FuncType *FuncType AddError bool Const string // constant definition } // IsVar reports whether Kind is either "var" or "fpvar" func (n *Name) IsVar() bool { return n.Kind == "var" || n.Kind == "fpvar" } // IsConst reports whether Kind is either "iconst", "fconst" or "sconst" func (n *Name) IsConst() bool { return strings.HasSuffix(n.Kind, "const") } // An ExpFunc is an exported function, callable from C. // Such functions are identified in the Go input file // by doc comments containing the line //export ExpName type ExpFunc struct { Func *ast.FuncDecl ExpName string // name to use from C Doc string } // A TypeRepr contains the string representation of a type. type TypeRepr struct { Repr string FormatArgs []interface{} } // A Type collects information about a type in both the C and Go worlds. type Type struct { Size int64 Align int64 C *TypeRepr Go ast.Expr EnumValues map[string]int64 Typedef string BadPointer bool // this pointer type should be represented as a uintptr (deprecated) } // A FuncType collects information about a function type in both the C and Go worlds. type FuncType struct { Params []*Type Result *Type Go *ast.FuncType } func usage() { fmt.Fprint(os.Stderr, "usage: cgo -- [compiler options] file.go ...\n") flag.PrintDefaults() os.Exit(2) } var ptrSizeMap = map[string]int64{ "386": 4, "alpha": 8, "amd64": 8, "arm": 4, "arm64": 8, "loong64": 8, "m68k": 4, "mips": 4, "mipsle": 4, "mips64": 8, "mips64le": 8, "nios2": 4, "ppc": 4, "ppc64": 8, "ppc64le": 8, "riscv": 4, "riscv64": 8, "s390": 4, "s390x": 8, "sh": 4, "shbe": 4, "sparc": 4, "sparc64": 8, } var intSizeMap = map[string]int64{ "386": 4, "alpha": 8, "amd64": 8, "arm": 4, "arm64": 8, "loong64": 8, "m68k": 4, "mips": 4, "mipsle": 4, "mips64": 8, "mips64le": 8, "nios2": 4, "ppc": 4, "ppc64": 8, "ppc64le": 8, "riscv": 4, "riscv64": 8, "s390": 4, "s390x": 8, "sh": 4, "shbe": 4, "sparc": 4, "sparc64": 8, } var cPrefix string var fset = token.NewFileSet() var dynobj = flag.String("dynimport", "", "if non-empty, print dynamic import data for that file") var dynout = flag.String("dynout", "", "write -dynimport output to this file") var dynpackage = flag.String("dynpackage", "main", "set Go package for -dynimport output") var dynlinker = flag.Bool("dynlinker", false, "record dynamic linker information in -dynimport mode") // This flag is for bootstrapping a new Go implementation, // to generate Go types that match the data layout and // constant values used in the host's C libraries and system calls. var godefs = flag.Bool("godefs", false, "for bootstrap: write Go definitions for C file to standard output") var srcDir = flag.String("srcdir", "", "source directory") var objDir = flag.String("objdir", "", "object directory") var importPath = flag.String("importpath", "", "import path of package being built (for comments in generated files)") var exportHeader = flag.String("exportheader", "", "where to write export header if any exported functions") var gccgo = flag.Bool("gccgo", false, "generate files for use with gccgo") var gccgoprefix = flag.String("gccgoprefix", "", "-fgo-prefix option used with gccgo") var gccgopkgpath = flag.String("gccgopkgpath", "", "-fgo-pkgpath option used with gccgo") var gccgoMangler func(string) string var gccgoDefineCgoIncomplete = flag.Bool("gccgo_define_cgoincomplete", false, "define cgo.Incomplete for older gccgo/GoLLVM") var importRuntimeCgo = flag.Bool("import_runtime_cgo", true, "import runtime/cgo in generated code") var importSyscall = flag.Bool("import_syscall", true, "import syscall in generated code") var trimpath = flag.String("trimpath", "", "applies supplied rewrites or trims prefixes to recorded source file paths") var goarch, goos, gomips, gomips64 string var gccBaseCmd []string func main() { objabi.AddVersionFlag() // -V objabi.Flagparse(usage) if *gccgoDefineCgoIncomplete { if !*gccgo { fmt.Fprintf(os.Stderr, "cgo: -gccgo_define_cgoincomplete without -gccgo\n") os.Exit(2) } incomplete = "_cgopackage_Incomplete" } if *dynobj != "" { // cgo -dynimport is essentially a separate helper command // built into the cgo binary. It scans a gcc-produced executable // and dumps information about the imported symbols and the // imported libraries. The 'go build' rules for cgo prepare an // appropriate executable and then use its import information // instead of needing to make the linkers duplicate all the // specialized knowledge gcc has about where to look for imported // symbols and which ones to use. dynimport(*dynobj) return } if *godefs { // Generating definitions pulled from header files, // to be checked into Go repositories. // Line numbers are just noise. conf.Mode &^= printer.SourcePos } args := flag.Args() if len(args) < 1 { usage() } // Find first arg that looks like a go file and assume everything before // that are options to pass to gcc. var i int for i = len(args); i > 0; i-- { if !strings.HasSuffix(args[i-1], ".go") { break } } if i == len(args) { usage() } // Save original command line arguments for the godefs generated comment. Relative file // paths in os.Args will be rewritten to absolute file paths in the loop below. osArgs := make([]string, len(os.Args)) copy(osArgs, os.Args[:]) goFiles := args[i:] for _, arg := range args[:i] { if arg == "-fsanitize=thread" { tsanProlog = yesTsanProlog } if arg == "-fsanitize=memory" { msanProlog = yesMsanProlog } } p := newPackage(args[:i]) // We need a C compiler to be available. Check this. var err error gccBaseCmd, err = checkGCCBaseCmd() if err != nil { fatalf("%v", err) os.Exit(2) } // Record CGO_LDFLAGS from the environment for external linking. if ldflags := os.Getenv("CGO_LDFLAGS"); ldflags != "" { args, err := splitQuoted(ldflags) if err != nil { fatalf("bad CGO_LDFLAGS: %q (%s)", ldflags, err) } p.addToFlag("LDFLAGS", args) } // Need a unique prefix for the global C symbols that // we use to coordinate between gcc and ourselves. // We already put _cgo_ at the beginning, so the main // concern is other cgo wrappers for the same functions. // Use the beginning of the notsha256 of the input to disambiguate. h := notsha256.New() io.WriteString(h, *importPath) fs := make([]*File, len(goFiles)) for i, input := range goFiles { if *srcDir != "" { input = filepath.Join(*srcDir, input) } // Create absolute path for file, so that it will be used in error // messages and recorded in debug line number information. // This matches the rest of the toolchain. See golang.org/issue/5122. if aname, err := filepath.Abs(input); err == nil { input = aname } b, err := os.ReadFile(input) if err != nil { fatalf("%s", err) } if _, err = h.Write(b); err != nil { fatalf("%s", err) } // Apply trimpath to the file path. The path won't be read from after this point. input, _ = objabi.ApplyRewrites(input, *trimpath) if strings.ContainsAny(input, "\r\n") { // ParseGo, (*Package).writeOutput, and printer.Fprint in SourcePos mode // all emit line directives, which don't permit newlines in the file path. // Bail early if we see anything newline-like in the trimmed path. fatalf("input path contains newline character: %q", input) } goFiles[i] = input f := new(File) f.Edit = edit.NewBuffer(b) f.ParseGo(input, b) f.ProcessCgoDirectives() fs[i] = f } cPrefix = fmt.Sprintf("_%x", h.Sum(nil)[0:6]) if *objDir == "" { // make sure that _obj directory exists, so that we can write // all the output files there. os.Mkdir("_obj", 0777) *objDir = "_obj" } *objDir += string(filepath.Separator) for i, input := range goFiles { f := fs[i] p.Translate(f) for _, cref := range f.Ref { switch cref.Context { case ctxCall, ctxCall2: if cref.Name.Kind != "type" { break } old := *cref.Expr *cref.Expr = cref.Name.Type.Go f.Edit.Replace(f.offset(old.Pos()), f.offset(old.End()), gofmt(cref.Name.Type.Go)) } } if nerrors > 0 { os.Exit(2) } p.PackagePath = f.Package p.Record(f) if *godefs { os.Stdout.WriteString(p.godefs(f, osArgs)) } else { p.writeOutput(f, input) } } cFunctions := make(map[string]bool) for _, key := range nameKeys(p.Name) { n := p.Name[key] if n.FuncType != nil { cFunctions[n.C] = true } } for funcName := range p.noEscapes { if _, found := cFunctions[funcName]; !found { error_(token.NoPos, "#cgo noescape %s: no matched C function", funcName) } } for funcName := range p.noCallbacks { if _, found := cFunctions[funcName]; !found { error_(token.NoPos, "#cgo nocallback %s: no matched C function", funcName) } } if !*godefs { p.writeDefs() } if nerrors > 0 { os.Exit(2) } } // newPackage returns a new Package that will invoke // gcc with the additional arguments specified in args. func newPackage(args []string) *Package { goarch = runtime.GOARCH if s := os.Getenv("GOARCH"); s != "" { goarch = s } goos = runtime.GOOS if s := os.Getenv("GOOS"); s != "" { goos = s } buildcfg.Check() gomips = buildcfg.GOMIPS gomips64 = buildcfg.GOMIPS64 ptrSize := ptrSizeMap[goarch] if ptrSize == 0 { fatalf("unknown ptrSize for $GOARCH %q", goarch) } intSize := intSizeMap[goarch] if intSize == 0 { fatalf("unknown intSize for $GOARCH %q", goarch) } // Reset locale variables so gcc emits English errors [sic]. os.Setenv("LANG", "en_US.UTF-8") os.Setenv("LC_ALL", "C") p := &Package{ PtrSize: ptrSize, IntSize: intSize, Written: make(map[string]bool), noCallbacks: make(map[string]bool), noEscapes: make(map[string]bool), } p.addToFlag("CFLAGS", args) return p } // Record what needs to be recorded about f. func (p *Package) Record(f *File) { if p.PackageName == "" { p.PackageName = f.Package } else if p.PackageName != f.Package { error_(token.NoPos, "inconsistent package names: %s, %s", p.PackageName, f.Package) } if p.Name == nil { p.Name = f.Name } else { for k, v := range f.Name { if p.Name[k] == nil { p.Name[k] = v } else if p.incompleteTypedef(p.Name[k].Type) { p.Name[k] = v } else if p.incompleteTypedef(v.Type) { // Nothing to do. } else if _, ok := nameToC[k]; ok { // Names we predefine may appear inconsistent // if some files typedef them and some don't. // Issue 26743. } else if !reflect.DeepEqual(p.Name[k], v) { error_(token.NoPos, "inconsistent definitions for C.%s", fixGo(k)) } } } // merge nocallback & noescape for k, v := range f.NoCallbacks { p.noCallbacks[k] = v } for k, v := range f.NoEscapes { p.noEscapes[k] = v } if f.ExpFunc != nil { p.ExpFunc = append(p.ExpFunc, f.ExpFunc...) p.Preamble += "\n" + f.Preamble } p.Decl = append(p.Decl, f.AST.Decls...) } // incompleteTypedef reports whether t appears to be an incomplete // typedef definition. func (p *Package) incompleteTypedef(t *Type) bool { return t == nil || (t.Size == 0 && t.Align == -1) }