func (in *interp) loadPackage(pkgpath string) (*types.Package, error) {
pkg, err := in.copts.Importer(in.pkgmap, pkgpath)
if err == nil {
return pkg, nil
}
buildpkg, err := build.Import(pkgpath, ".", 0)
if err != nil {
return nil, err
}
if len(buildpkg.CgoFiles) != 0 {
return nil, fmt.Errorf("%s: cannot load cgo package", pkgpath)
}
for _, imp := range buildpkg.Imports {
_, err := in.loadPackage(imp)
if err != nil {
return nil, err
}
}
fmt.Printf("# %s\n", pkgpath)
inputs := make([]string, len(buildpkg.GoFiles))
for i, file := range buildpkg.GoFiles {
inputs[i] = filepath.Join(buildpkg.Dir, file)
}
fset := token.NewFileSet()
files, err := driver.ParseFiles(fset, inputs)
if err != nil {
return nil, err
}
return in.loadSourcePackage(fset, files, pkgpath, in.copts)
}
func performAction(opts *driverOptions, kind actionKind, inputs []string, output string) error {
switch kind {
case actionPrint:
switch opts.output {
case "-dumpversion":
fmt.Println("llgo-" + llvmVersion())
return nil
case "-print-libgcc-file-name":
cmd := exec.Command(opts.bprefix+"gcc", "-print-libgcc-file-name")
out, err := cmd.CombinedOutput()
os.Stdout.Write(out)
return err
case "-print-multi-os-directory":
fmt.Println(filepath.Join("..", getLibDir(opts)))
return nil
case "--version":
displayVersion()
return nil
default:
panic("unexpected print command")
}
case actionCompile, actionAssemble:
compiler, err := initCompiler(opts)
if err != nil {
return err
}
fset := token.NewFileSet()
files, err := driver.ParseFiles(fset, inputs)
if err != nil {
return err
}
module, err := compiler.Compile(fset, files, opts.pkgpath)
if err != nil {
return err
}
defer module.Dispose()
target, err := llvm.GetTargetFromTriple(opts.triple)
if err != nil {
return err
}
optLevel := [...]llvm.CodeGenOptLevel{
llvm.CodeGenLevelNone,
llvm.CodeGenLevelLess,
llvm.CodeGenLevelDefault,
llvm.CodeGenLevelAggressive,
}[opts.optLevel]
relocMode := llvm.RelocStatic
if opts.pic {
relocMode = llvm.RelocPIC
}
tm := target.CreateTargetMachine(opts.triple, "", "", optLevel,
relocMode, llvm.CodeModelDefault)
defer tm.Dispose()
runPasses(opts, tm, module.Module)
var file *os.File
if output == "-" {
file = os.Stdout
} else {
file, err = os.Create(output)
if err != nil {
return err
}
defer file.Close()
}
switch {
case !opts.lto && !opts.emitIR:
if module.ExportData != nil {
asm := getMetadataSectionInlineAsm(".go_export")
asm += getDataInlineAsm(module.ExportData)
module.Module.SetInlineAsm(asm)
}
fileType := llvm.AssemblyFile
if kind == actionCompile {
fileType = llvm.ObjectFile
}
mb, err := tm.EmitToMemoryBuffer(module.Module, fileType)
if err != nil {
return err
}
defer mb.Dispose()
bytes := mb.Bytes()
_, err = file.Write(bytes)
return err
case opts.lto:
bcmb := llvm.WriteBitcodeToMemoryBuffer(module.Module)
defer bcmb.Dispose()
// This is a bit of a hack. We just want an object file
// containing some metadata sections. This might be simpler
// if we had bindings for the MC library, but for now we create
// a fresh module containing only inline asm that creates the
// sections.
outmodule := llvm.NewModule("")
defer outmodule.Dispose()
asm := getMetadataSectionInlineAsm(".llvmbc")
asm += getDataInlineAsm(bcmb.Bytes())
if module.ExportData != nil {
asm += getMetadataSectionInlineAsm(".go_export")
asm += getDataInlineAsm(module.ExportData)
}
outmodule.SetInlineAsm(asm)
fileType := llvm.AssemblyFile
if kind == actionCompile {
fileType = llvm.ObjectFile
}
mb, err := tm.EmitToMemoryBuffer(outmodule, fileType)
if err != nil {
return err
}
defer mb.Dispose()
bytes := mb.Bytes()
_, err = file.Write(bytes)
return err
case kind == actionCompile:
err := llvm.WriteBitcodeToFile(module.Module, file)
return err
case kind == actionAssemble:
_, err := file.WriteString(module.Module.String())
return err
default:
panic("unexpected action kind")
}
case actionLink:
// TODO(pcc): Teach this to do LTO.
args := []string{"-o", output}
if opts.pic {
args = append(args, "-fPIC")
}
if opts.pieLink {
args = append(args, "-pie")
}
if opts.staticLink {
args = append(args, "-static")
}
if opts.staticLibgcc {
args = append(args, "-static-libgcc")
}
for _, p := range opts.libPaths {
args = append(args, "-L", p)
}
for _, p := range opts.importPaths {
args = append(args, "-I", p)
}
args = append(args, inputs...)
var linkerPath string
if opts.gccgoPath == "" {
// TODO(pcc): See if we can avoid calling gcc here.
// We currently rely on it to find crt*.o and compile
// any C source files passed as arguments.
linkerPath = opts.bprefix + "gcc"
if opts.prefix != "" {
libdir := filepath.Join(opts.prefix, getLibDir(opts))
args = append(args, "-L", libdir)
if !opts.staticLibgo {
args = append(args, "-Wl,-rpath,"+libdir)
}
}
args = append(args, "-lgobegin-llgo")
if opts.staticLibgo {
args = append(args, "-Wl,-Bstatic", "-lgo-llgo", "-Wl,-Bdynamic", "-lpthread", "-lm")
} else {
args = append(args, "-lgo-llgo")
}
} else {
linkerPath = opts.gccgoPath
if opts.staticLibgo {
args = append(args, "-static-libgo")
}
}
args = opts.sanitizer.addLibs(opts.triple, args)
cmd := exec.Command(linkerPath, args...)
out, err := cmd.CombinedOutput()
if err != nil {
os.Stderr.Write(out)
}
return err
default:
panic("unexpected action kind")
}
}
