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|
// Copyright 2022 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 modindex
import (
"bytes"
"encoding/binary"
"errors"
"fmt"
"go/build"
"go/build/constraint"
"go/token"
"internal/godebug"
"internal/goroot"
"path"
"path/filepath"
"runtime"
"runtime/debug"
"sort"
"strings"
"sync"
"time"
"unsafe"
"cmd/go/internal/base"
"cmd/go/internal/cache"
"cmd/go/internal/cfg"
"cmd/go/internal/fsys"
"cmd/go/internal/imports"
"cmd/go/internal/par"
"cmd/go/internal/str"
)
// enabled is used to flag off the behavior of the module index on tip.
// It will be removed before the release.
// TODO(matloob): Remove enabled once we have more confidence on the
// module index.
var enabled = godebug.New("goindex").Value() != "0"
// Module represents and encoded module index file. It is used to
// do the equivalent of build.Import of packages in the module and answer other
// questions based on the index file's data.
type Module struct {
modroot string
d *decoder
n int // number of packages
}
// moduleHash returns an ActionID corresponding to the state of the module
// located at filesystem path modroot.
func moduleHash(modroot string, ismodcache bool) (cache.ActionID, error) {
// We expect modules stored within the module cache to be checksummed and
// immutable, and we expect released modules within GOROOT to change only
// infrequently (when the Go version changes).
if !ismodcache {
// The contents of this module may change over time. We don't want to pay
// the cost to detect changes and re-index whenever they occur, so just
// don't index it at all.
//
// Note that this is true even for modules in GOROOT/src: non-release builds
// of the Go toolchain may have arbitrary development changes on top of the
// commit reported by runtime.Version, or could be completly artificial due
// to lacking a `git` binary (like "devel gomote.XXXXX", as synthesized by
// "gomote push" as of 2022-06-15). (Release builds shouldn't have
// modifications, but we don't want to use a behavior for releases that we
// haven't tested during development.)
return cache.ActionID{}, ErrNotIndexed
}
h := cache.NewHash("moduleIndex")
// TODO(bcmills): Since modules in the index are checksummed, we could
// probably improve the cache hit rate by keying off of the module
// path@version (perhaps including the checksum?) instead of the module root
// directory.
fmt.Fprintf(h, "module index %s %s %v\n", runtime.Version(), indexVersion, modroot)
return h.Sum(), nil
}
const modTimeCutoff = 2 * time.Second
// dirHash returns an ActionID corresponding to the state of the package
// located at filesystem path pkgdir.
func dirHash(modroot, pkgdir string) (cache.ActionID, error) {
h := cache.NewHash("moduleIndex")
fmt.Fprintf(h, "modroot %s\n", modroot)
fmt.Fprintf(h, "package %s %s %v\n", runtime.Version(), indexVersion, pkgdir)
entries, err := fsys.ReadDir(pkgdir)
if err != nil {
// pkgdir might not be a directory. give up on hashing.
return cache.ActionID{}, ErrNotIndexed
}
cutoff := time.Now().Add(-modTimeCutoff)
for _, info := range entries {
if info.IsDir() {
continue
}
if !info.Mode().IsRegular() {
return cache.ActionID{}, ErrNotIndexed
}
// To avoid problems for very recent files where a new
// write might not change the mtime due to file system
// mtime precision, reject caching if a file was read that
// is less than modTimeCutoff old.
//
// This is the same strategy used for hashing test inputs.
// See hashOpen in cmd/go/internal/test/test.go for the
// corresponding code.
if info.ModTime().After(cutoff) {
return cache.ActionID{}, ErrNotIndexed
}
fmt.Fprintf(h, "file %v %v %v\n", info.Name(), info.ModTime(), info.Size())
}
return h.Sum(), nil
}
var modrootCache par.Cache
var ErrNotIndexed = errors.New("not in module index")
var (
errDisabled = fmt.Errorf("%w: module indexing disabled", ErrNotIndexed)
errNotFromModuleCache = fmt.Errorf("%w: not from module cache", ErrNotIndexed)
)
// GetPackage returns the IndexPackage for the package at the given path.
// It will return ErrNotIndexed if the directory should be read without
// using the index, for instance because the index is disabled, or the packgae
// is not in a module.
func GetPackage(modroot, pkgdir string) (*IndexPackage, error) {
mi, err := GetModule(modroot)
if err == nil {
return mi.Package(relPath(pkgdir, modroot)), nil
}
if !errors.Is(err, errNotFromModuleCache) {
return nil, err
}
if cfg.BuildContext.Compiler == "gccgo" && str.HasPathPrefix(modroot, cfg.GOROOTsrc) {
return nil, err // gccgo has no sources for GOROOT packages.
}
return openIndexPackage(modroot, pkgdir)
}
// GetModule returns the Module for the given modroot.
// It will return ErrNotIndexed if the directory should be read without
// using the index, for instance because the index is disabled, or the packgae
// is not in a module.
func GetModule(modroot string) (*Module, error) {
if !enabled || cache.DefaultDir() == "off" {
return nil, errDisabled
}
if modroot == "" {
panic("modindex.GetPackage called with empty modroot")
}
if cfg.BuildMod == "vendor" {
// Even if the main module is in the module cache,
// its vendored dependencies are not loaded from their
// usual cached locations.
return nil, errNotFromModuleCache
}
modroot = filepath.Clean(modroot)
if str.HasFilePathPrefix(modroot, cfg.GOROOTsrc) || !str.HasFilePathPrefix(modroot, cfg.GOMODCACHE) {
return nil, errNotFromModuleCache
}
return openIndexModule(modroot, true)
}
var mcache par.Cache
// openIndexModule returns the module index for modPath.
// It will return ErrNotIndexed if the module can not be read
// using the index because it contains symlinks.
func openIndexModule(modroot string, ismodcache bool) (*Module, error) {
type result struct {
mi *Module
err error
}
r := mcache.Do(modroot, func() any {
fsys.Trace("openIndexModule", modroot)
id, err := moduleHash(modroot, ismodcache)
if err != nil {
return result{nil, err}
}
data, _, err := cache.Default().GetMmap(id)
if err != nil {
// Couldn't read from modindex. Assume we couldn't read from
// the index because the module hasn't been indexed yet.
data, err = indexModule(modroot)
if err != nil {
return result{nil, err}
}
if err = cache.Default().PutBytes(id, data); err != nil {
return result{nil, err}
}
}
mi, err := fromBytes(modroot, data)
if err != nil {
return result{nil, err}
}
return result{mi, nil}
}).(result)
return r.mi, r.err
}
var pcache par.Cache
func openIndexPackage(modroot, pkgdir string) (*IndexPackage, error) {
type result struct {
pkg *IndexPackage
err error
}
r := pcache.Do([2]string{modroot, pkgdir}, func() any {
fsys.Trace("openIndexPackage", pkgdir)
id, err := dirHash(modroot, pkgdir)
if err != nil {
return result{nil, err}
}
data, _, err := cache.Default().GetMmap(id)
if err != nil {
// Couldn't read from index. Assume we couldn't read from
// the index because the package hasn't been indexed yet.
data = indexPackage(modroot, pkgdir)
if err = cache.Default().PutBytes(id, data); err != nil {
return result{nil, err}
}
}
pkg, err := packageFromBytes(modroot, data)
if err != nil {
return result{nil, err}
}
return result{pkg, nil}
}).(result)
return r.pkg, r.err
}
var errCorrupt = errors.New("corrupt index")
// protect marks the start of a large section of code that accesses the index.
// It should be used as:
//
// defer unprotect(protect, &err)
//
// It should not be used for trivial accesses which would be
// dwarfed by the overhead of the defer.
func protect() bool {
return debug.SetPanicOnFault(true)
}
var isTest = false
// unprotect marks the end of a large section of code that accesses the index.
// It should be used as:
//
// defer unprotect(protect, &err)
//
// end looks for panics due to errCorrupt or bad mmap accesses.
// When it finds them, it adds explanatory text, consumes the panic, and sets *errp instead.
// If errp is nil, end adds the explanatory text but then calls base.Fatalf.
func unprotect(old bool, errp *error) {
// SetPanicOnFault's errors _may_ satisfy this interface. Even though it's not guaranteed
// that all its errors satisfy this interface, we'll only check for these errors so that
// we don't suppress panics that could have been produced from other sources.
type addrer interface {
Addr() uintptr
}
debug.SetPanicOnFault(old)
if e := recover(); e != nil {
if _, ok := e.(addrer); ok || e == errCorrupt {
// This panic was almost certainly caused by SetPanicOnFault or our panic(errCorrupt).
err := fmt.Errorf("error reading module index: %v", e)
if errp != nil {
*errp = err
return
}
if isTest {
panic(err)
}
base.Fatalf("%v", err)
}
// The panic was likely not caused by SetPanicOnFault.
panic(e)
}
}
// fromBytes returns a *Module given the encoded representation.
func fromBytes(moddir string, data []byte) (m *Module, err error) {
if !enabled {
panic("use of index")
}
defer unprotect(protect(), &err)
if !bytes.HasPrefix(data, []byte(indexVersion+"\n")) {
return nil, errCorrupt
}
const hdr = len(indexVersion + "\n")
d := &decoder{data: data}
str := d.intAt(hdr)
if str < hdr+8 || len(d.data) < str {
return nil, errCorrupt
}
d.data, d.str = data[:str], d.data[str:]
// Check that string table looks valid.
// First string is empty string (length 0),
// and we leave a marker byte 0xFF at the end
// just to make sure that the file is not truncated.
if len(d.str) == 0 || d.str[0] != 0 || d.str[len(d.str)-1] != 0xFF {
return nil, errCorrupt
}
n := d.intAt(hdr + 4)
if n < 0 || n > (len(d.data)-8)/8 {
return nil, errCorrupt
}
m = &Module{
moddir,
d,
n,
}
return m, nil
}
// packageFromBytes returns a *IndexPackage given the encoded representation.
func packageFromBytes(modroot string, data []byte) (p *IndexPackage, err error) {
m, err := fromBytes(modroot, data)
if err != nil {
return nil, err
}
if m.n != 1 {
return nil, fmt.Errorf("corrupt single-package index")
}
return m.pkg(0), nil
}
// pkgDir returns the dir string of the i'th package in the index.
func (m *Module) pkgDir(i int) string {
if i < 0 || i >= m.n {
panic(errCorrupt)
}
return m.d.stringAt(12 + 8 + 8*i)
}
// pkgOff returns the offset of the data for the i'th package in the index.
func (m *Module) pkgOff(i int) int {
if i < 0 || i >= m.n {
panic(errCorrupt)
}
return m.d.intAt(12 + 8 + 8*i + 4)
}
// Walk calls f for each package in the index, passing the path to that package relative to the module root.
func (m *Module) Walk(f func(path string)) {
defer unprotect(protect(), nil)
for i := 0; i < m.n; i++ {
f(m.pkgDir(i))
}
}
// relPath returns the path relative to the module's root.
func relPath(path, modroot string) string {
return str.TrimFilePathPrefix(filepath.Clean(path), filepath.Clean(modroot))
}
var installgorootAll = godebug.New("installgoroot").Value() == "all"
// Import is the equivalent of build.Import given the information in Module.
func (rp *IndexPackage) Import(bctxt build.Context, mode build.ImportMode) (p *build.Package, err error) {
defer unprotect(protect(), &err)
ctxt := (*Context)(&bctxt)
p = &build.Package{}
p.ImportPath = "."
p.Dir = filepath.Join(rp.modroot, rp.dir)
var pkgerr error
switch ctxt.Compiler {
case "gccgo", "gc":
default:
// Save error for end of function.
pkgerr = fmt.Errorf("import %q: unknown compiler %q", p.Dir, ctxt.Compiler)
}
if p.Dir == "" {
return p, fmt.Errorf("import %q: import of unknown directory", p.Dir)
}
// goroot and gopath
inTestdata := func(sub string) bool {
return strings.Contains(sub, "/testdata/") || strings.HasSuffix(sub, "/testdata") || str.HasPathPrefix(sub, "testdata")
}
var pkga string
if !inTestdata(rp.dir) {
// In build.go, p.Root should only be set in the non-local-import case, or in
// GOROOT or GOPATH. Since module mode only calls Import with path set to "."
// and the module index doesn't apply outside modules, the GOROOT case is
// the only case where p.Root needs to be set.
if ctxt.GOROOT != "" && str.HasFilePathPrefix(p.Dir, cfg.GOROOTsrc) && p.Dir != cfg.GOROOTsrc {
p.Root = ctxt.GOROOT
p.Goroot = true
modprefix := str.TrimFilePathPrefix(rp.modroot, cfg.GOROOTsrc)
p.ImportPath = rp.dir
if modprefix != "" {
p.ImportPath = filepath.Join(modprefix, p.ImportPath)
}
// Set GOROOT-specific fields (sometimes for modules in a GOPATH directory).
// The fields set below (SrcRoot, PkgRoot, BinDir, PkgTargetRoot, and PkgObj)
// are only set in build.Import if p.Root != "".
var pkgtargetroot string
suffix := ""
if ctxt.InstallSuffix != "" {
suffix = "_" + ctxt.InstallSuffix
}
switch ctxt.Compiler {
case "gccgo":
pkgtargetroot = "pkg/gccgo_" + ctxt.GOOS + "_" + ctxt.GOARCH + suffix
dir, elem := path.Split(p.ImportPath)
pkga = pkgtargetroot + "/" + dir + "lib" + elem + ".a"
case "gc":
pkgtargetroot = "pkg/" + ctxt.GOOS + "_" + ctxt.GOARCH + suffix
pkga = pkgtargetroot + "/" + p.ImportPath + ".a"
}
p.SrcRoot = ctxt.joinPath(p.Root, "src")
p.PkgRoot = ctxt.joinPath(p.Root, "pkg")
p.BinDir = ctxt.joinPath(p.Root, "bin")
if pkga != "" {
// Always set PkgTargetRoot. It might be used when building in shared
// mode.
p.PkgTargetRoot = ctxt.joinPath(p.Root, pkgtargetroot)
// Set the install target if applicable.
if !p.Goroot || (installgorootAll && p.ImportPath != "unsafe" && p.ImportPath != "builtin") {
p.PkgObj = ctxt.joinPath(p.Root, pkga)
}
}
}
}
if rp.error != nil {
if errors.Is(rp.error, errCannotFindPackage) && ctxt.Compiler == "gccgo" && p.Goroot {
return p, nil
}
return p, rp.error
}
if mode&build.FindOnly != 0 {
return p, pkgerr
}
// We need to do a second round of bad file processing.
var badGoError error
badGoFiles := make(map[string]bool)
badGoFile := func(name string, err error) {
if badGoError == nil {
badGoError = err
}
if !badGoFiles[name] {
p.InvalidGoFiles = append(p.InvalidGoFiles, name)
badGoFiles[name] = true
}
}
var Sfiles []string // files with ".S"(capital S)/.sx(capital s equivalent for case insensitive filesystems)
var firstFile string
embedPos := make(map[string][]token.Position)
testEmbedPos := make(map[string][]token.Position)
xTestEmbedPos := make(map[string][]token.Position)
importPos := make(map[string][]token.Position)
testImportPos := make(map[string][]token.Position)
xTestImportPos := make(map[string][]token.Position)
allTags := make(map[string]bool)
for _, tf := range rp.sourceFiles {
name := tf.name()
// Check errors for go files and call badGoFiles to put them in
// InvalidGoFiles if they do have an error.
if strings.HasSuffix(name, ".go") {
if error := tf.error(); error != "" {
badGoFile(name, errors.New(tf.error()))
continue
} else if parseError := tf.parseError(); parseError != "" {
badGoFile(name, parseErrorFromString(tf.parseError()))
// Fall through: we still want to list files with parse errors.
}
}
var shouldBuild = true
if !ctxt.goodOSArchFile(name, allTags) && !ctxt.UseAllFiles {
shouldBuild = false
} else if goBuildConstraint := tf.goBuildConstraint(); goBuildConstraint != "" {
x, err := constraint.Parse(goBuildConstraint)
if err != nil {
return p, fmt.Errorf("%s: parsing //go:build line: %v", name, err)
}
shouldBuild = ctxt.eval(x, allTags)
} else if plusBuildConstraints := tf.plusBuildConstraints(); len(plusBuildConstraints) > 0 {
for _, text := range plusBuildConstraints {
if x, err := constraint.Parse(text); err == nil {
if !ctxt.eval(x, allTags) {
shouldBuild = false
}
}
}
}
ext := nameExt(name)
if !shouldBuild || tf.ignoreFile() {
if ext == ".go" {
p.IgnoredGoFiles = append(p.IgnoredGoFiles, name)
} else if fileListForExt((*Package)(p), ext) != nil {
p.IgnoredOtherFiles = append(p.IgnoredOtherFiles, name)
}
continue
}
// Going to save the file. For non-Go files, can stop here.
switch ext {
case ".go":
// keep going
case ".S", ".sx":
// special case for cgo, handled at end
Sfiles = append(Sfiles, name)
continue
default:
if list := fileListForExt((*Package)(p), ext); list != nil {
*list = append(*list, name)
}
continue
}
pkg := tf.pkgName()
if pkg == "documentation" {
p.IgnoredGoFiles = append(p.IgnoredGoFiles, name)
continue
}
isTest := strings.HasSuffix(name, "_test.go")
isXTest := false
if isTest && strings.HasSuffix(tf.pkgName(), "_test") && p.Name != tf.pkgName() {
isXTest = true
pkg = pkg[:len(pkg)-len("_test")]
}
if !isTest && tf.binaryOnly() {
p.BinaryOnly = true
}
if p.Name == "" {
p.Name = pkg
firstFile = name
} else if pkg != p.Name {
// TODO(#45999): The choice of p.Name is arbitrary based on file iteration
// order. Instead of resolving p.Name arbitrarily, we should clear out the
// existing Name and mark the existing files as also invalid.
badGoFile(name, &MultiplePackageError{
Dir: p.Dir,
Packages: []string{p.Name, pkg},
Files: []string{firstFile, name},
})
}
// Grab the first package comment as docs, provided it is not from a test file.
if p.Doc == "" && !isTest && !isXTest {
if synopsis := tf.synopsis(); synopsis != "" {
p.Doc = synopsis
}
}
// Record Imports and information about cgo.
isCgo := false
imports := tf.imports()
for _, imp := range imports {
if imp.path == "C" {
if isTest {
badGoFile(name, fmt.Errorf("use of cgo in test %s not supported", name))
continue
}
isCgo = true
}
}
if directives := tf.cgoDirectives(); directives != "" {
if err := ctxt.saveCgo(name, (*Package)(p), directives); err != nil {
badGoFile(name, err)
}
}
var fileList *[]string
var importMap, embedMap map[string][]token.Position
switch {
case isCgo:
allTags["cgo"] = true
if ctxt.CgoEnabled {
fileList = &p.CgoFiles
importMap = importPos
embedMap = embedPos
} else {
// Ignore Imports and Embeds from cgo files if cgo is disabled.
fileList = &p.IgnoredGoFiles
}
case isXTest:
fileList = &p.XTestGoFiles
importMap = xTestImportPos
embedMap = xTestEmbedPos
case isTest:
fileList = &p.TestGoFiles
importMap = testImportPos
embedMap = testEmbedPos
default:
fileList = &p.GoFiles
importMap = importPos
embedMap = embedPos
}
*fileList = append(*fileList, name)
if importMap != nil {
for _, imp := range imports {
importMap[imp.path] = append(importMap[imp.path], imp.position)
}
}
if embedMap != nil {
for _, e := range tf.embeds() {
embedMap[e.pattern] = append(embedMap[e.pattern], e.position)
}
}
}
p.EmbedPatterns, p.EmbedPatternPos = cleanDecls(embedPos)
p.TestEmbedPatterns, p.TestEmbedPatternPos = cleanDecls(testEmbedPos)
p.XTestEmbedPatterns, p.XTestEmbedPatternPos = cleanDecls(xTestEmbedPos)
p.Imports, p.ImportPos = cleanDecls(importPos)
p.TestImports, p.TestImportPos = cleanDecls(testImportPos)
p.XTestImports, p.XTestImportPos = cleanDecls(xTestImportPos)
for tag := range allTags {
p.AllTags = append(p.AllTags, tag)
}
sort.Strings(p.AllTags)
if len(p.CgoFiles) > 0 {
p.SFiles = append(p.SFiles, Sfiles...)
sort.Strings(p.SFiles)
} else {
p.IgnoredOtherFiles = append(p.IgnoredOtherFiles, Sfiles...)
sort.Strings(p.IgnoredOtherFiles)
}
if badGoError != nil {
return p, badGoError
}
if len(p.GoFiles)+len(p.CgoFiles)+len(p.TestGoFiles)+len(p.XTestGoFiles) == 0 {
return p, &build.NoGoError{Dir: p.Dir}
}
return p, pkgerr
}
// IsStandardPackage reports whether path is a standard package
// for the goroot and compiler using the module index if possible,
// and otherwise falling back to internal/goroot.IsStandardPackage
func IsStandardPackage(goroot_, compiler, path string) bool {
if !enabled || compiler != "gc" {
return goroot.IsStandardPackage(goroot_, compiler, path)
}
reldir := filepath.FromSlash(path) // relative dir path in module index for package
modroot := filepath.Join(goroot_, "src")
if str.HasFilePathPrefix(reldir, "cmd") {
reldir = str.TrimFilePathPrefix(reldir, "cmd")
modroot = filepath.Join(modroot, "cmd")
}
if _, err := GetPackage(modroot, filepath.Join(modroot, reldir)); err == nil {
// Note that goroot.IsStandardPackage doesn't check that the directory
// actually contains any go files-- merely that it exists. GetPackage
// returning a nil error is enough for us to know the directory exists.
return true
} else if errors.Is(err, ErrNotIndexed) {
// Fall back because package isn't indexable. (Probably because
// a file was modified recently)
return goroot.IsStandardPackage(goroot_, compiler, path)
}
return false
}
// IsDirWithGoFiles is the equivalent of fsys.IsDirWithGoFiles using the information in the index.
func (rp *IndexPackage) IsDirWithGoFiles() (_ bool, err error) {
defer func() {
if e := recover(); e != nil {
err = fmt.Errorf("error reading module index: %v", e)
}
}()
for _, sf := range rp.sourceFiles {
if strings.HasSuffix(sf.name(), ".go") {
return true, nil
}
}
return false, nil
}
// ScanDir implements imports.ScanDir using the information in the index.
func (rp *IndexPackage) ScanDir(tags map[string]bool) (sortedImports []string, sortedTestImports []string, err error) {
// TODO(matloob) dir should eventually be relative to indexed directory
// TODO(matloob): skip reading raw package and jump straight to data we need?
defer func() {
if e := recover(); e != nil {
err = fmt.Errorf("error reading module index: %v", e)
}
}()
imports_ := make(map[string]bool)
testImports := make(map[string]bool)
numFiles := 0
Files:
for _, sf := range rp.sourceFiles {
name := sf.name()
if strings.HasPrefix(name, "_") || strings.HasPrefix(name, ".") || !strings.HasSuffix(name, ".go") || !imports.MatchFile(name, tags) {
continue
}
// The following section exists for backwards compatibility reasons:
// scanDir ignores files with import "C" when collecting the list
// of imports unless the "cgo" tag is provided. The following comment
// is copied from the original.
//
// import "C" is implicit requirement of cgo tag.
// When listing files on the command line (explicitFiles=true)
// we do not apply build tag filtering but we still do apply
// cgo filtering, so no explicitFiles check here.
// Why? Because we always have, and it's not worth breaking
// that behavior now.
imps := sf.imports() // TODO(matloob): directly read import paths to avoid the extra strings?
for _, imp := range imps {
if imp.path == "C" && !tags["cgo"] && !tags["*"] {
continue Files
}
}
if !shouldBuild(sf, tags) {
continue
}
numFiles++
m := imports_
if strings.HasSuffix(name, "_test.go") {
m = testImports
}
for _, p := range imps {
m[p.path] = true
}
}
if numFiles == 0 {
return nil, nil, imports.ErrNoGo
}
return keys(imports_), keys(testImports), nil
}
func keys(m map[string]bool) []string {
list := make([]string, 0, len(m))
for k := range m {
list = append(list, k)
}
sort.Strings(list)
return list
}
// implements imports.ShouldBuild in terms of an index sourcefile.
func shouldBuild(sf *sourceFile, tags map[string]bool) bool {
if goBuildConstraint := sf.goBuildConstraint(); goBuildConstraint != "" {
x, err := constraint.Parse(goBuildConstraint)
if err != nil {
return false
}
return imports.Eval(x, tags, true)
}
plusBuildConstraints := sf.plusBuildConstraints()
for _, text := range plusBuildConstraints {
if x, err := constraint.Parse(text); err == nil {
if !imports.Eval(x, tags, true) {
return false
}
}
}
return true
}
// IndexPackage holds the information needed to access information in the
// index needed to load a package in a specific directory.
type IndexPackage struct {
error error
dir string // directory of the package relative to the modroot
modroot string
// Source files
sourceFiles []*sourceFile
}
var errCannotFindPackage = errors.New("cannot find package")
// Package and returns finds the package with the given path (relative to the module root).
// If the package does not exist, Package returns an IndexPackage that will return an
// appropriate error from its methods.
func (m *Module) Package(path string) *IndexPackage {
defer unprotect(protect(), nil)
i, ok := sort.Find(m.n, func(i int) int {
return strings.Compare(path, m.pkgDir(i))
})
if !ok {
return &IndexPackage{error: fmt.Errorf("%w %q in:\n\t%s", errCannotFindPackage, path, filepath.Join(m.modroot, path))}
}
return m.pkg(i)
}
// pkgAt returns the i'th IndexPackage in m.
func (m *Module) pkg(i int) *IndexPackage {
r := m.d.readAt(m.pkgOff(i))
p := new(IndexPackage)
if errstr := r.string(); errstr != "" {
p.error = errors.New(errstr)
}
p.dir = r.string()
p.sourceFiles = make([]*sourceFile, r.int())
for i := range p.sourceFiles {
p.sourceFiles[i] = &sourceFile{
d: m.d,
pos: r.int(),
}
}
p.modroot = m.modroot
return p
}
// sourceFile represents the information of a given source file in the module index.
type sourceFile struct {
d *decoder // encoding of this source file
pos int // start of sourceFile encoding in d
onceReadImports sync.Once
savedImports []rawImport // saved imports so that they're only read once
}
// Offsets for fields in the sourceFile.
const (
sourceFileError = 4 * iota
sourceFileParseError
sourceFileSynopsis
sourceFileName
sourceFilePkgName
sourceFileIgnoreFile
sourceFileBinaryOnly
sourceFileCgoDirectives
sourceFileGoBuildConstraint
sourceFileNumPlusBuildConstraints
)
func (sf *sourceFile) error() string {
return sf.d.stringAt(sf.pos + sourceFileError)
}
func (sf *sourceFile) parseError() string {
return sf.d.stringAt(sf.pos + sourceFileParseError)
}
func (sf *sourceFile) synopsis() string {
return sf.d.stringAt(sf.pos + sourceFileSynopsis)
}
func (sf *sourceFile) name() string {
return sf.d.stringAt(sf.pos + sourceFileName)
}
func (sf *sourceFile) pkgName() string {
return sf.d.stringAt(sf.pos + sourceFilePkgName)
}
func (sf *sourceFile) ignoreFile() bool {
return sf.d.boolAt(sf.pos + sourceFileIgnoreFile)
}
func (sf *sourceFile) binaryOnly() bool {
return sf.d.boolAt(sf.pos + sourceFileBinaryOnly)
}
func (sf *sourceFile) cgoDirectives() string {
return sf.d.stringAt(sf.pos + sourceFileCgoDirectives)
}
func (sf *sourceFile) goBuildConstraint() string {
return sf.d.stringAt(sf.pos + sourceFileGoBuildConstraint)
}
func (sf *sourceFile) plusBuildConstraints() []string {
pos := sf.pos + sourceFileNumPlusBuildConstraints
n := sf.d.intAt(pos)
pos += 4
ret := make([]string, n)
for i := 0; i < n; i++ {
ret[i] = sf.d.stringAt(pos)
pos += 4
}
return ret
}
func (sf *sourceFile) importsOffset() int {
pos := sf.pos + sourceFileNumPlusBuildConstraints
n := sf.d.intAt(pos)
// each build constraint is 1 uint32
return pos + 4 + n*4
}
func (sf *sourceFile) embedsOffset() int {
pos := sf.importsOffset()
n := sf.d.intAt(pos)
// each import is 5 uint32s (string + tokpos)
return pos + 4 + n*(4*5)
}
func (sf *sourceFile) imports() []rawImport {
sf.onceReadImports.Do(func() {
importsOffset := sf.importsOffset()
r := sf.d.readAt(importsOffset)
numImports := r.int()
ret := make([]rawImport, numImports)
for i := 0; i < numImports; i++ {
ret[i] = rawImport{r.string(), r.tokpos()}
}
sf.savedImports = ret
})
return sf.savedImports
}
func (sf *sourceFile) embeds() []embed {
embedsOffset := sf.embedsOffset()
r := sf.d.readAt(embedsOffset)
numEmbeds := r.int()
ret := make([]embed, numEmbeds)
for i := range ret {
ret[i] = embed{r.string(), r.tokpos()}
}
return ret
}
func asString(b []byte) string {
return unsafe.String(unsafe.SliceData(b), len(b))
}
// A decoder helps decode the index format.
type decoder struct {
data []byte // data after header
str []byte // string table
}
// intAt returns the int at the given offset in d.data.
func (d *decoder) intAt(off int) int {
if off < 0 || len(d.data)-off < 4 {
panic(errCorrupt)
}
i := binary.LittleEndian.Uint32(d.data[off : off+4])
if int32(i)>>31 != 0 {
panic(errCorrupt)
}
return int(i)
}
// boolAt returns the bool at the given offset in d.data.
func (d *decoder) boolAt(off int) bool {
return d.intAt(off) != 0
}
// stringTableAt returns the string pointed at by the int at the given offset in d.data.
func (d *decoder) stringAt(off int) string {
return d.stringTableAt(d.intAt(off))
}
// stringTableAt returns the string at the given offset in the string table d.str.
func (d *decoder) stringTableAt(off int) string {
if off < 0 || off >= len(d.str) {
panic(errCorrupt)
}
s := d.str[off:]
v, n := binary.Uvarint(s)
if n <= 0 || v > uint64(len(s[n:])) {
panic(errCorrupt)
}
return asString(s[n : n+int(v)])
}
// A reader reads sequential fields from a section of the index format.
type reader struct {
d *decoder
pos int
}
// readAt returns a reader starting at the given position in d.
func (d *decoder) readAt(pos int) *reader {
return &reader{d, pos}
}
// int reads the next int.
func (r *reader) int() int {
i := r.d.intAt(r.pos)
r.pos += 4
return i
}
// string reads the next string.
func (r *reader) string() string {
return r.d.stringTableAt(r.int())
}
// bool reads the next bool.
func (r *reader) bool() bool {
return r.int() != 0
}
// tokpos reads the next token.Position.
func (r *reader) tokpos() token.Position {
return token.Position{
Filename: r.string(),
Offset: r.int(),
Line: r.int(),
Column: r.int(),
}
}
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