package goanalysis
import (
"errors"
"fmt"
"go/ast"
"go/parser"
"go/scanner"
"go/types"
"os"
"reflect"
"sync"
"sync/atomic"
"golang.org/x/tools/go/gcexportdata"
"golang.org/x/tools/go/packages"
"github.com/golangci/golangci-lint/pkg/goanalysis/load"
"github.com/golangci/golangci-lint/pkg/logutils"
)
const unsafePkgName = "unsafe"
type loadingPackage struct {
pkg *packages.Package
imports map[string]*loadingPackage
isInitial bool
log logutils.Log
actions []*action // all actions with this package
loadGuard *load.Guard
dependents int32 // number of depending on it packages
analyzeOnce sync.Once
decUseMutex sync.Mutex
}
func (lp *loadingPackage) analyzeRecursive(loadMode LoadMode, loadSem chan struct{}) {
lp.analyzeOnce.Do(func() {
// Load the direct dependencies, in parallel.
var wg sync.WaitGroup
wg.Add(len(lp.imports))
for _, imp := range lp.imports {
go func(imp *loadingPackage) {
imp.analyzeRecursive(loadMode, loadSem)
wg.Done()
}(imp)
}
wg.Wait()
lp.analyze(loadMode, loadSem)
})
}
func (lp *loadingPackage) analyze(loadMode LoadMode, loadSem chan struct{}) {
loadSem <- struct{}{}
defer func() {
<-loadSem
}()
// Save memory on unused more fields.
defer lp.decUse(loadMode < LoadModeWholeProgram)
if err := lp.loadWithFacts(loadMode); err != nil {
werr := fmt.Errorf("failed to load package %s: %w", lp.pkg.Name, err)
// Don't need to write error to errCh, it will be extracted and reported on another layer.
// Unblock depending on actions and propagate error.
for _, act := range lp.actions {
close(act.analysisDoneCh)
act.err = werr
}
return
}
var actsWg sync.WaitGroup
actsWg.Add(len(lp.actions))
for _, act := range lp.actions {
go func(act *action) {
defer actsWg.Done()
act.waitUntilDependingAnalyzersWorked()
act.analyzeSafe()
}(act)
}
actsWg.Wait()
}
func (lp *loadingPackage) loadFromSource(loadMode LoadMode) error {
pkg := lp.pkg
// Many packages have few files, much fewer than there
// are CPU cores. Additionally, parsing each individual file is
// very fast. A naive parallel implementation of this loop won't
// be faster, and tends to be slower due to extra scheduling,
// bookkeeping and potentially false sharing of cache lines.
pkg.Syntax = make([]*ast.File, 0, len(pkg.CompiledGoFiles))
for _, file := range pkg.CompiledGoFiles {
f, err := parser.ParseFile(pkg.Fset, file, nil, parser.ParseComments)
if err != nil {
pkg.Errors = append(pkg.Errors, lp.convertError(err)...)
continue
}
pkg.Syntax = append(pkg.Syntax, f)
}
if len(pkg.Errors) != 0 {
pkg.IllTyped = true
return nil
}
if loadMode == LoadModeSyntax {
return nil
}
// Call NewPackage directly with explicit name.
// This avoids skew between golist and go/types when the files'
// package declarations are inconsistent.
// Subtle: we populate all Types fields with an empty Package
// before loading export data so that export data processing
// never has to create a types.Package for an indirect dependency,
// which would then require that such created packages be explicitly
// inserted back into the Import graph as a final step after export data loading.
pkg.Types = types.NewPackage(pkg.PkgPath, pkg.Name)
pkg.IllTyped = true
pkg.TypesInfo = &types.Info{
Types: make(map[ast.Expr]types.TypeAndValue),
Instances: make(map[*ast.Ident]types.Instance),
Defs: make(map[*ast.Ident]types.Object),
Uses: make(map[*ast.Ident]types.Object),
Implicits: make(map[ast.Node]types.Object),
Scopes: make(map[ast.Node]*types.Scope),
Selections: make(map[*ast.SelectorExpr]*types.Selection),
}
importer := func(path string) (*types.Package, error) {
if path == unsafePkgName {
return types.Unsafe, nil
}
if path == "C" {
// go/packages doesn't tell us that cgo preprocessing
// failed. When we subsequently try to parse the package,
// we'll encounter the raw C import.
return nil, errors.New("cgo preprocessing failed")
}
imp := pkg.Imports[path]
if imp == nil {
return nil, nil
}
if len(imp.Errors) > 0 {
return nil, imp.Errors[0]
}
return imp.Types, nil
}
tc := &types.Config{
Importer: importerFunc(importer),
Error: func(err error) {
pkg.Errors = append(pkg.Errors, lp.convertError(err)...)
},
}
_ = types.NewChecker(tc, pkg.Fset, pkg.Types, pkg.TypesInfo).Files(pkg.Syntax)
// Don't handle error here: errors are adding by tc.Error function.
illTyped := len(pkg.Errors) != 0
if !illTyped {
for _, imp := range lp.imports {
if imp.pkg.IllTyped {
illTyped = true
break
}
}
}
pkg.IllTyped = illTyped
return nil
}
func (lp *loadingPackage) loadFromExportData() error {
pkg := lp.pkg
// Call NewPackage directly with explicit name.
// This avoids skew between golist and go/types when the files'
// package declarations are inconsistent.
// Subtle: we populate all Types fields with an empty Package
// before loading export data so that export data processing
// never has to create a types.Package for an indirect dependency,
// which would then require that such created packages be explicitly
// inserted back into the Import graph as a final step after export data loading.
pkg.Types = types.NewPackage(pkg.PkgPath, pkg.Name)
pkg.IllTyped = true
for path, pkg := range pkg.Imports {
if pkg.Types == nil {
return fmt.Errorf("dependency %q hasn't been loaded yet", path)
}
}
if pkg.ExportFile == "" {
return fmt.Errorf("no export data for %q", pkg.ID)
}
f, err := os.Open(pkg.ExportFile)
if err != nil {
return err
}
defer f.Close()
r, err := gcexportdata.NewReader(f)
if err != nil {
return err
}
view := make(map[string]*types.Package) // view seen by gcexportdata
seen := make(map[*packages.Package]bool) // all visited packages
var visit func(pkgs map[string]*packages.Package)
visit = func(pkgs map[string]*packages.Package) {
for _, pkg := range pkgs {
if !seen[pkg] {
seen[pkg] = true
view[pkg.PkgPath] = pkg.Types
visit(pkg.Imports)
}
}
}
visit(pkg.Imports)
tpkg, err := gcexportdata.Read(r, pkg.Fset, view, pkg.PkgPath)
if err != nil {
return err
}
pkg.Types = tpkg
pkg.IllTyped = false
return nil
}
func (lp *loadingPackage) loadWithFacts(loadMode LoadMode) error {
pkg := lp.pkg
if pkg.PkgPath == unsafePkgName {
// Fill in the blanks to avoid surprises.
pkg.Syntax = []*ast.File{}
if loadMode >= LoadModeTypesInfo {
pkg.Types = types.Unsafe
pkg.TypesInfo = new(types.Info)
}
return nil
}
if pkg.TypesInfo != nil {
// Already loaded package, e.g. because another not go/analysis linter required types for deps.
// Try load cached facts for it.
for _, act := range lp.actions {
if !act.loadCachedFacts() {
// Cached facts loading failed: analyze later the action from source.
act.needAnalyzeSource = true
factsCacheDebugf("Loading of facts for already loaded %s failed, analyze it from source later", act)
act.markDepsForAnalyzingSource()
}
}
return nil
}
if lp.isInitial {
// No need to load cached facts: the package will be analyzed from source
// because it's the initial.
return lp.loadFromSource(loadMode)
}
return lp.loadImportedPackageWithFacts(loadMode)
}
func (lp *loadingPackage) loadImportedPackageWithFacts(loadMode LoadMode) error {
pkg := lp.pkg
// Load package from export data
if loadMode >= LoadModeTypesInfo {
if err := lp.loadFromExportData(); err != nil {
// We asked Go to give us up-to-date export data, yet
// we can't load it. There must be something wrong.
//
// Attempt loading from source. This should fail (because
// otherwise there would be export data); we just want to
// get the compile errors. If loading from source succeeds
// we discard the result, anyway. Otherwise, we'll fail
// when trying to reload from export data later.
// Otherwise, it panics because uses already existing (from exported data) types.
pkg.Types = types.NewPackage(pkg.PkgPath, pkg.Name)
if srcErr := lp.loadFromSource(loadMode); srcErr != nil {
return srcErr
}
// Make sure this package can't be imported successfully
pkg.Errors = append(pkg.Errors, packages.Error{
Pos: "-",
Msg: fmt.Sprintf("could not load export data: %s", err),
Kind: packages.ParseError,
})
return fmt.Errorf("could not load export data: %w", err)
}
}
needLoadFromSource := false
for _, act := range lp.actions {
if act.loadCachedFacts() {
continue
}
// Cached facts loading failed: analyze later the action from source.
factsCacheDebugf("Loading of facts for %s failed, analyze it from source later", act)
act.needAnalyzeSource = true // can't be set in parallel
needLoadFromSource = true
act.markDepsForAnalyzingSource()
}
if needLoadFromSource {
// Cached facts loading failed: analyze later the action from source. To perform
// the analysis we need to load the package from source code.
// Otherwise, it panics because uses already existing (from exported data) types.
if loadMode >= LoadModeTypesInfo {
pkg.Types = types.NewPackage(pkg.PkgPath, pkg.Name)
}
return lp.loadFromSource(loadMode)
}
return nil
}
func (lp *loadingPackage) decUse(canClearTypes bool) {
lp.decUseMutex.Lock()
defer lp.decUseMutex.Unlock()
for _, act := range lp.actions {
pass := act.pass
if pass == nil {
continue
}
pass.Files = nil
pass.TypesInfo = nil
pass.TypesSizes = nil
pass.ResultOf = nil
pass.Pkg = nil
pass.OtherFiles = nil
pass.AllObjectFacts = nil
pass.AllPackageFacts = nil
pass.ImportObjectFact = nil
pass.ExportObjectFact = nil
pass.ImportPackageFact = nil
pass.ExportPackageFact = nil
act.pass = nil
act.deps = nil
if act.result != nil {
if isMemoryDebug {
debugf("%s: decUse: nilling act result of size %d bytes", act, sizeOfValueTreeBytes(act.result))
}
act.result = nil
}
}
lp.pkg.Syntax = nil
lp.pkg.TypesInfo = nil
lp.pkg.TypesSizes = nil
// Can't set lp.pkg.Imports to nil because of loadFromExportData.visit.
dependents := atomic.AddInt32(&lp.dependents, -1)
if dependents != 0 {
return
}
if canClearTypes {
// canClearTypes is set to true if we can discard type
// information after the package and its dependents have been
// processed. This is the case when no whole program checkers (unused) are
// being run.
lp.pkg.Types = nil
}
lp.pkg = nil
for _, imp := range lp.imports {
imp.decUse(canClearTypes)
}
lp.imports = nil
for _, act := range lp.actions {
if !lp.isInitial {
act.pkg = nil
}
act.packageFacts = nil
act.objectFacts = nil
}
lp.actions = nil
}
func (lp *loadingPackage) convertError(err error) []packages.Error {
var errs []packages.Error
// taken from go/packages
switch err := err.(type) {
case packages.Error:
// from driver
errs = append(errs, err)
case *os.PathError:
// from parser
errs = append(errs, packages.Error{
Pos: err.Path + ":1",
Msg: err.Err.Error(),
Kind: packages.ParseError,
})
case scanner.ErrorList:
// from parser
for _, err := range err {
errs = append(errs, packages.Error{
Pos: err.Pos.String(),
Msg: err.Msg,
Kind: packages.ParseError,
})
}
case types.Error:
// from type checker
errs = append(errs, packages.Error{
Pos: err.Fset.Position(err.Pos).String(),
Msg: err.Msg,
Kind: packages.TypeError,
})
default:
// unexpected impoverished error from parser?
errs = append(errs, packages.Error{
Pos: "-",
Msg: err.Error(),
Kind: packages.UnknownError,
})
// If you see this error message, please file a bug.
lp.log.Warnf("Internal error: error %q (%T) without position", err, err)
}
return errs
}
func (lp *loadingPackage) String() string {
return fmt.Sprintf("%s@%s", lp.pkg.PkgPath, lp.pkg.Name)
}
type importerFunc func(path string) (*types.Package, error)
func (f importerFunc) Import(path string) (*types.Package, error) { return f(path) }
func sizeOfValueTreeBytes(v any) int {
return sizeOfReflectValueTreeBytes(reflect.ValueOf(v), map[uintptr]struct{}{})
}
func sizeOfReflectValueTreeBytes(rv reflect.Value, visitedPtrs map[uintptr]struct{}) int {
switch rv.Kind() {
case reflect.Ptr:
ptrSize := int(rv.Type().Size())
if rv.IsNil() {
return ptrSize
}
ptr := rv.Pointer()
if _, ok := visitedPtrs[ptr]; ok {
return 0
}
visitedPtrs[ptr] = struct{}{}
return ptrSize + sizeOfReflectValueTreeBytes(rv.Elem(), visitedPtrs)
case reflect.Interface:
if rv.IsNil() {
return 0
}
return sizeOfReflectValueTreeBytes(rv.Elem(), visitedPtrs)
case reflect.Struct:
ret := 0
for i := 0; i < rv.NumField(); i++ {
ret += sizeOfReflectValueTreeBytes(rv.Field(i), visitedPtrs)
}
return ret
case reflect.Slice, reflect.Array, reflect.Chan:
return int(rv.Type().Size()) + rv.Cap()*int(rv.Type().Elem().Size())
case reflect.Map:
ret := 0
for _, key := range rv.MapKeys() {
mv := rv.MapIndex(key)
ret += sizeOfReflectValueTreeBytes(key, visitedPtrs)
ret += sizeOfReflectValueTreeBytes(mv, visitedPtrs)
}
return ret
case reflect.String:
return rv.Len()
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64,
reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64,
reflect.Uintptr, reflect.Bool, reflect.Float32, reflect.Float64,
reflect.Complex64, reflect.Complex128, reflect.Func, reflect.UnsafePointer:
return int(rv.Type().Size())
case reflect.Invalid:
return 0
default:
panic("unknown rv of type " + rv.String())
}
}