// 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 main import ( "fmt"; "go/ast"; "go/printer"; "os"; "strings"; ) func creat(name string) *os.File { f, err := os.Open(name, os.O_WRONLY | os.O_CREAT | os.O_TRUNC, 0666); if err != nil { fatal("%s", err); } return f; } // writeOutput creates output files to be compiled by 6g, 6c, and gcc. // (The comments here say 6g and 6c but the code applies to the 8 and 5 tools too.) func (p *Prog) writeOutput(srcfile string) { pkgroot := os.Getenv("GOROOT") + "/pkg/" + os.Getenv("GOOS") + "_" + os.Getenv("GOARCH"); base := srcfile; if strings.HasSuffix(base, ".go") { base = base[0 : len(base)-3]; } fgo1 := creat(base + ".cgo1.go"); fgo2 := creat(base + ".cgo2.go"); fc := creat(base + ".cgo3.c"); fgcc := creat(base + ".cgo4.c"); // Write Go output: Go input with rewrites of C.xxx to _C_xxx. fmt.Fprintf(fgo1, "// Created by cgo - DO NOT EDIT\n"); fmt.Fprintf(fgo1, "//line %s:1\n", srcfile); printer.Fprint(fgo1, p.AST, 0, 8, nil); // Write second Go output: definitions of _C_xxx. // In a separate file so that the import of "unsafe" does not // pollute the original file. fmt.Fprintf(fgo2, "// Created by cgo - DO NOT EDIT\n"); fmt.Fprintf(fgo2, "package %s\n\n", p.Package); fmt.Fprintf(fgo2, "import \"unsafe\"\n\n"); fmt.Fprintf(fgo2, "type _ unsafe.Pointer\n\n"); for name, def := range p.Typedef { fmt.Fprintf(fgo2, "type %s ", name); printer.Fprint(fgo2, def, 0, 8, nil); fmt.Fprintf(fgo2, "\n"); } fmt.Fprintf(fgo2, "type _C_void [0]byte\n"); // While we process the vars and funcs, also write 6c and gcc output. // Gcc output starts with the preamble. fmt.Fprintf(fgcc, "%s\n", p.Preamble); fmt.Fprintf(fgcc, "%s\n", gccProlog); fmt.Fprintf(fc, cProlog, pkgroot, pkgroot, pkgroot, pkgroot, p.Package, p.Package); for name, def := range p.Vardef { fmt.Fprintf(fc, "#pragma dynld %s·_C_%s %s \"%s/%s_%s.so\"\n", p.Package, name, name, pkgroot, p.PackagePath, base); fmt.Fprintf(fgo2, "var _C_%s ", name); printer.Fprint(fgo2, &ast.StarExpr{X: def.Go}, 0, 8, nil); fmt.Fprintf(fgo2, "\n"); } fmt.Fprintf(fc, "\n"); for name, def := range p.Funcdef { // Go func declaration. d := &ast.FuncDecl{ Name: &ast.Ident{Value: "_C_"+name}, Type: def.Go, }; printer.Fprint(fgo2, d, 0, 8, nil); fmt.Fprintf(fgo2, "\n"); if name == "CString" || name == "GoString" { // The builtins are already defined in the C prolog. continue; } // Construct a gcc struct matching the 6c argument frame. // Assumes that in gcc, char is 1 byte, short 2 bytes, int 4 bytes, long long 8 bytes. // These assumptions are checked by the gccProlog. // Also assumes that 6c convention is to word-align the // input and output parameters. structType := "struct {\n"; off := int64(0); npad := 0; for i, t := range def.Params { if off % t.Align != 0 { pad := t.Align - off % t.Align; structType += fmt.Sprintf("\t\tchar __pad%d[%d];\n", npad, pad); off += pad; npad++; } structType += fmt.Sprintf("\t\t%s p%d;\n", t.C, i); off += t.Size; } if off % p.PtrSize != 0 { pad := p.PtrSize - off % p.PtrSize; structType += fmt.Sprintf("\t\tchar __pad%d[%d];\n", npad, pad); off += pad; npad++; } if t := def.Result; t != nil { if off % t.Align != 0 { pad := t.Align - off % t.Align; structType += fmt.Sprintf("\t\tchar __pad%d[%d];\n", npad, pad); off += pad; npad++; } structType += fmt.Sprintf("\t\t%s r;\n", t.C); off += t.Size; } if off % p.PtrSize != 0 { pad := p.PtrSize - off % p.PtrSize; structType += fmt.Sprintf("\t\tchar __pad%d[%d];\n", npad, pad); off += pad; npad++; } if len(def.Params) == 0 && def.Result == nil { structType += "\t\tchar unused;\n"; // avoid empty struct off++; } structType += "\t}"; argSize := off; // C wrapper calls into gcc, passing a pointer to the argument frame. // Also emit #pragma to get a pointer to the gcc wrapper. fmt.Fprintf(fc, "#pragma dynld _cgo_%s _cgo_%s \"%s/%s_%s.so\"\n", name, name, pkgroot, p.PackagePath, base); fmt.Fprintf(fc, "void (*_cgo_%s)(void*);\n", name); fmt.Fprintf(fc, "\n"); fmt.Fprintf(fc, "void\n"); fmt.Fprintf(fc, "%s·_C_%s(struct{uint8 x[%d];}p)\n", p.Package, name, argSize); fmt.Fprintf(fc, "{\n"); fmt.Fprintf(fc, "\tcgocall(_cgo_%s, &p);\n", name); fmt.Fprintf(fc, "}\n"); fmt.Fprintf(fc, "\n"); // Gcc wrapper unpacks the C argument struct // and calls the actual C function. fmt.Fprintf(fgcc, "void\n"); fmt.Fprintf(fgcc, "_cgo_%s(void *v)\n", name); fmt.Fprintf(fgcc, "{\n"); fmt.Fprintf(fgcc, "\t%s *a = v;\n", structType); fmt.Fprintf(fgcc, "\t"); if def.Result != nil { fmt.Fprintf(fgcc, "a->r = "); } fmt.Fprintf(fgcc, "%s(", name); for i := range def.Params { if i > 0 { fmt.Fprintf(fgcc, ", "); } fmt.Fprintf(fgcc, "a->p%d", i); } fmt.Fprintf(fgcc, ");\n"); fmt.Fprintf(fgcc, "}\n"); fmt.Fprintf(fgcc, "\n"); } fgo1.Close(); fgo2.Close(); fc.Close(); fgcc.Close(); } const gccProlog = ` // Usual nonsense: if x and y are not equal, the type will be invalid // (have a negative array count) and an inscrutable error will come // out of the compiler and hopefully mention "name". #define __cgo_compile_assert_eq(x, y, name) typedef char name[(x-y)*(x-y)*-2+1]; // Check at compile time that the sizes we use match our expectations. #define __cgo_size_assert(t, n) __cgo_compile_assert_eq(sizeof(t), n, _cgo_sizeof_##t##_is_not_##n) __cgo_size_assert(char, 1) __cgo_size_assert(short, 2) __cgo_size_assert(int, 4) typedef long long __cgo_long_long; __cgo_size_assert(__cgo_long_long, 8) __cgo_size_assert(float, 4) __cgo_size_assert(double, 8) ` const builtinProlog = ` typedef struct { char *p; int n; } _GoString_; _GoString_ GoString(char *p); char *CString(_GoString_); ` const cProlog = ` #include "runtime.h" #include "cgocall.h" #pragma dynld initcgo initcgo "%s/libcgo.so" #pragma dynld libcgo_thread_start libcgo_thread_start "%s/libcgo.so" #pragma dynld _cgo_malloc _cgo_malloc "%s/libcgo.so" #pragma dynld _cgo_free free "%s/libcgo.so" void %s·_C_GoString(int8 *p, String s) { s = gostring((byte*)p); FLUSH(&s); } void %s·_C_CString(String s, int8 *p) { p = cmalloc(s.len+1); mcpy((byte*)p, s.str, s.len); p[s.len] = 0; FLUSH(&p); } `