blob: 8e88607a0ec838b19c8187e47c43fe7b6a9cb0de [file] [log] [blame]
// Copyright 2018 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 packages
import (
"encoding/json"
"fmt"
"go/build"
"io/ioutil"
"os"
"os/exec"
"path/filepath"
"sort"
"strings"
"golang.org/x/tools/go/internal/cgo"
)
// TODO(matloob): Delete this file once Go 1.12 is released.
// This file provides backwards compatibility support for
// loading for versions of Go earlier than 1.10.4. This support is meant to
// assist with migration to the Package API until there's
// widespread adoption of these newer Go versions.
// This support will be removed once Go 1.12 is released
// in Q1 2019.
func golistDriverFallback(cfg *Config, words ...string) (*driverResponse, error) {
// Turn absolute paths into GOROOT and GOPATH-relative paths to provide to go list.
// This will have surprising behavior if GOROOT or GOPATH contain multiple packages with the same
// path and a user provides an absolute path to a directory that's shadowed by an earlier
// directory in GOROOT or GOPATH with the same package path.
words = cleanAbsPaths(cfg, words)
original, deps, err := getDeps(cfg, words...)
if err != nil {
return nil, err
}
var tmpdir string // used for generated cgo files
var needsTestVariant []struct {
pkg, xtestPkg *Package
}
var response driverResponse
allPkgs := make(map[string]bool)
addPackage := func(p *jsonPackage, isRoot bool) {
id := p.ImportPath
if allPkgs[id] {
return
}
allPkgs[id] = true
pkgpath := id
if pkgpath == "unsafe" {
p.GoFiles = nil // ignore fake unsafe.go file
}
importMap := func(importlist []string) map[string]*Package {
importMap := make(map[string]*Package)
for _, id := range importlist {
if id == "C" {
for _, path := range []string{"unsafe", "syscall", "runtime/cgo"} {
if pkgpath != path && importMap[path] == nil {
importMap[path] = &Package{ID: path}
}
}
continue
}
importMap[vendorlessPath(id)] = &Package{ID: id}
}
return importMap
}
compiledGoFiles := absJoin(p.Dir, p.GoFiles)
// Use a function to simplify control flow. It's just a bunch of gotos.
var cgoErrors []error
var outdir string
getOutdir := func() (string, error) {
if outdir != "" {
return outdir, nil
}
if tmpdir == "" {
if tmpdir, err = ioutil.TempDir("", "gopackages"); err != nil {
return "", err
}
}
// Add a "go-build" component to the path to make the tests think the files are in the cache.
// This allows the same test to test the pre- and post-Go 1.11 go list logic because the Go 1.11
// go list generates test mains in the cache, and the test code knows not to rely on paths in the
// cache to stay stable.
outdir = filepath.Join(tmpdir, "go-build", strings.Replace(p.ImportPath, "/", "_", -1))
if err := os.MkdirAll(outdir, 0755); err != nil {
outdir = ""
return "", err
}
return outdir, nil
}
processCgo := func() bool {
// Suppress any cgo errors. Any relevant errors will show up in typechecking.
// TODO(matloob): Skip running cgo if Mode < LoadTypes.
outdir, err := getOutdir()
if err != nil {
cgoErrors = append(cgoErrors, err)
return false
}
files, _, err := runCgo(p.Dir, outdir, cfg.Env)
if err != nil {
cgoErrors = append(cgoErrors, err)
return false
}
compiledGoFiles = append(compiledGoFiles, files...)
return true
}
if len(p.CgoFiles) == 0 || !processCgo() {
compiledGoFiles = append(compiledGoFiles, absJoin(p.Dir, p.CgoFiles)...) // Punt to typechecker.
}
if isRoot {
response.Roots = append(response.Roots, id)
}
pkg := &Package{
ID: id,
Name: p.Name,
GoFiles: absJoin(p.Dir, p.GoFiles, p.CgoFiles),
CompiledGoFiles: compiledGoFiles,
OtherFiles: absJoin(p.Dir, otherFiles(p)...),
PkgPath: pkgpath,
Imports: importMap(p.Imports),
// TODO(matloob): set errors on the Package to cgoErrors
}
if p.Error != nil {
pkg.Errors = append(pkg.Errors, Error{
Pos: p.Error.Pos,
Msg: p.Error.Err,
})
}
response.Packages = append(response.Packages, pkg)
if cfg.Tests && isRoot {
testID := fmt.Sprintf("%s [%s.test]", id, id)
if len(p.TestGoFiles) > 0 || len(p.XTestGoFiles) > 0 {
response.Roots = append(response.Roots, testID)
testPkg := &Package{
ID: testID,
Name: p.Name,
GoFiles: absJoin(p.Dir, p.GoFiles, p.CgoFiles, p.TestGoFiles),
CompiledGoFiles: append(compiledGoFiles, absJoin(p.Dir, p.TestGoFiles)...),
OtherFiles: absJoin(p.Dir, otherFiles(p)...),
PkgPath: pkgpath,
Imports: importMap(append(p.Imports, p.TestImports...)),
// TODO(matloob): set errors on the Package to cgoErrors
}
response.Packages = append(response.Packages, testPkg)
var xtestPkg *Package
if len(p.XTestGoFiles) > 0 {
xtestID := fmt.Sprintf("%s_test [%s.test]", id, id)
response.Roots = append(response.Roots, xtestID)
// Generate test variants for all packages q where a path exists
// such that xtestPkg -> ... -> q -> ... -> p (where p is the package under test)
// and rewrite all import map entries of p to point to testPkg (the test variant of
// p), and of each q to point to the test variant of that q.
xtestPkg = &Package{
ID: xtestID,
Name: p.Name + "_test",
GoFiles: absJoin(p.Dir, p.XTestGoFiles),
CompiledGoFiles: absJoin(p.Dir, p.XTestGoFiles),
PkgPath: pkgpath + "_test",
Imports: importMap(p.XTestImports),
}
// Add to list of packages we need to rewrite imports for to refer to test variants.
// We may need to create a test variant of a package that hasn't been loaded yet, so
// the test variants need to be created later.
needsTestVariant = append(needsTestVariant, struct{ pkg, xtestPkg *Package }{pkg, xtestPkg})
response.Packages = append(response.Packages, xtestPkg)
}
// testmain package
testmainID := id + ".test"
response.Roots = append(response.Roots, testmainID)
imports := map[string]*Package{}
imports[testPkg.PkgPath] = &Package{ID: testPkg.ID}
if xtestPkg != nil {
imports[xtestPkg.PkgPath] = &Package{ID: xtestPkg.ID}
}
testmainPkg := &Package{
ID: testmainID,
Name: "main",
PkgPath: testmainID,
Imports: imports,
}
response.Packages = append(response.Packages, testmainPkg)
outdir, err := getOutdir()
if err != nil {
testmainPkg.Errors = append(testmainPkg.Errors, Error{
Pos: "-",
Msg: fmt.Sprintf("failed to generate testmain: %v", err),
Kind: ListError,
})
return
}
testmain := filepath.Join(outdir, "testmain.go")
extraimports, extradeps, err := generateTestmain(testmain, testPkg, xtestPkg)
if err != nil {
testmainPkg.Errors = append(testmainPkg.Errors, Error{
Pos: "-",
Msg: fmt.Sprintf("failed to generate testmain: %v", err),
Kind: ListError,
})
}
deps = append(deps, extradeps...)
for _, imp := range extraimports { // testing, testing/internal/testdeps, and maybe os
imports[imp] = &Package{ID: imp}
}
testmainPkg.GoFiles = []string{testmain}
testmainPkg.CompiledGoFiles = []string{testmain}
}
}
}
for _, pkg := range original {
addPackage(pkg, true)
}
if cfg.Mode < LoadImports || len(deps) == 0 {
return &response, nil
}
buf, err := invokeGo(cfg, golistArgsFallback(cfg, deps)...)
if err != nil {
return nil, err
}
// Decode the JSON and convert it to Package form.
for dec := json.NewDecoder(buf); dec.More(); {
p := new(jsonPackage)
if err := dec.Decode(p); err != nil {
return nil, fmt.Errorf("JSON decoding failed: %v", err)
}
addPackage(p, false)
}
for _, v := range needsTestVariant {
createTestVariants(&response, v.pkg, v.xtestPkg)
}
return &response, nil
}
func createTestVariants(response *driverResponse, pkgUnderTest, xtestPkg *Package) {
allPkgs := make(map[string]*Package)
for _, pkg := range response.Packages {
allPkgs[pkg.ID] = pkg
}
needsTestVariant := make(map[string]bool)
needsTestVariant[pkgUnderTest.ID] = true
var needsVariantRec func(p *Package) bool
needsVariantRec = func(p *Package) bool {
if needsTestVariant[p.ID] {
return true
}
for _, imp := range p.Imports {
if needsVariantRec(allPkgs[imp.ID]) {
// Don't break because we want to make sure all dependencies
// have been processed, and all required test variants of our dependencies
// exist.
needsTestVariant[p.ID] = true
}
}
if !needsTestVariant[p.ID] {
return false
}
// Create a clone of the package. It will share the same strings and lists of source files,
// but that's okay. It's only necessary for the Imports map to have a separate identity.
testVariant := *p
testVariant.ID = fmt.Sprintf("%s [%s.test]", p.ID, pkgUnderTest.ID)
testVariant.Imports = make(map[string]*Package)
for imp, pkg := range p.Imports {
testVariant.Imports[imp] = pkg
if needsTestVariant[pkg.ID] {
testVariant.Imports[imp] = &Package{ID: fmt.Sprintf("%s [%s.test]", pkg.ID, pkgUnderTest.ID)}
}
}
response.Packages = append(response.Packages, &testVariant)
return needsTestVariant[p.ID]
}
// finally, update the xtest package's imports
for imp, pkg := range xtestPkg.Imports {
if allPkgs[pkg.ID] == nil {
fmt.Printf("for %s: package %s doesn't exist\n", xtestPkg.ID, pkg.ID)
}
if needsVariantRec(allPkgs[pkg.ID]) {
xtestPkg.Imports[imp] = &Package{ID: fmt.Sprintf("%s [%s.test]", pkg.ID, pkgUnderTest.ID)}
}
}
}
// cleanAbsPaths replaces all absolute paths with GOPATH- and GOROOT-relative
// paths. If an absolute path is not GOPATH- or GOROOT- relative, it is left as an
// absolute path so an error can be returned later.
func cleanAbsPaths(cfg *Config, words []string) []string {
var searchpaths []string
var cleaned = make([]string, len(words))
for i := range cleaned {
cleaned[i] = words[i]
// Ignore relative directory paths (they must already be goroot-relative) and Go source files
// (absolute source files are already allowed for ad-hoc packages).
// TODO(matloob): Can there be non-.go files in ad-hoc packages.
if !filepath.IsAbs(cleaned[i]) || strings.HasSuffix(cleaned[i], ".go") {
continue
}
// otherwise, it's an absolute path. Search GOPATH and GOROOT to find it.
if searchpaths == nil {
cmd := exec.Command("go", "env", "GOPATH", "GOROOT")
cmd.Env = cfg.Env
out, err := cmd.Output()
if err != nil {
searchpaths = []string{}
continue // suppress the error, it will show up again when running go list
}
lines := strings.Split(string(out), "\n")
if len(lines) != 3 || lines[0] == "" || lines[1] == "" || lines[2] != "" {
continue // suppress error
}
// first line is GOPATH
for _, path := range filepath.SplitList(lines[0]) {
searchpaths = append(searchpaths, filepath.Join(path, "src"))
}
// second line is GOROOT
searchpaths = append(searchpaths, filepath.Join(lines[1], "src"))
}
for _, sp := range searchpaths {
if strings.HasPrefix(cleaned[i], sp) {
cleaned[i] = strings.TrimPrefix(cleaned[i], sp)
cleaned[i] = strings.TrimLeft(cleaned[i], string(filepath.Separator))
}
}
}
return cleaned
}
// vendorlessPath returns the devendorized version of the import path ipath.
// For example, VendorlessPath("foo/bar/vendor/a/b") returns "a/b".
// Copied from golang.org/x/tools/imports/fix.go.
func vendorlessPath(ipath string) string {
// Devendorize for use in import statement.
if i := strings.LastIndex(ipath, "/vendor/"); i >= 0 {
return ipath[i+len("/vendor/"):]
}
if strings.HasPrefix(ipath, "vendor/") {
return ipath[len("vendor/"):]
}
return ipath
}
// getDeps runs an initial go list to determine all the dependency packages.
func getDeps(cfg *Config, words ...string) (initial []*jsonPackage, deps []string, err error) {
buf, err := invokeGo(cfg, golistArgsFallback(cfg, words)...)
if err != nil {
return nil, nil, err
}
depsSet := make(map[string]bool)
var testImports []string
// Extract deps from the JSON.
for dec := json.NewDecoder(buf); dec.More(); {
p := new(jsonPackage)
if err := dec.Decode(p); err != nil {
return nil, nil, fmt.Errorf("JSON decoding failed: %v", err)
}
initial = append(initial, p)
for _, dep := range p.Deps {
depsSet[dep] = true
}
if cfg.Tests {
// collect the additional imports of the test packages.
pkgTestImports := append(p.TestImports, p.XTestImports...)
for _, imp := range pkgTestImports {
if depsSet[imp] {
continue
}
depsSet[imp] = true
testImports = append(testImports, imp)
}
}
}
// Get the deps of the packages imported by tests.
if len(testImports) > 0 {
buf, err = invokeGo(cfg, golistArgsFallback(cfg, testImports)...)
if err != nil {
return nil, nil, err
}
// Extract deps from the JSON.
for dec := json.NewDecoder(buf); dec.More(); {
p := new(jsonPackage)
if err := dec.Decode(p); err != nil {
return nil, nil, fmt.Errorf("JSON decoding failed: %v", err)
}
for _, dep := range p.Deps {
depsSet[dep] = true
}
}
}
for _, orig := range initial {
delete(depsSet, orig.ImportPath)
}
deps = make([]string, 0, len(depsSet))
for dep := range depsSet {
deps = append(deps, dep)
}
sort.Strings(deps) // ensure output is deterministic
return initial, deps, nil
}
func golistArgsFallback(cfg *Config, words []string) []string {
fullargs := []string{"list", "-e", "-json"}
fullargs = append(fullargs, cfg.BuildFlags...)
fullargs = append(fullargs, "--")
fullargs = append(fullargs, words...)
return fullargs
}
func runCgo(pkgdir, tmpdir string, env []string) (files, displayfiles []string, err error) {
// Use go/build to open cgo files and determine the cgo flags, etc, from them.
// This is tricky so it's best to avoid reimplementing as much as we can, and
// we plan to delete this support once Go 1.12 is released anyways.
// TODO(matloob): This isn't completely correct because we're using the Default
// context. Perhaps we should more accurately fill in the context.
bp, err := build.ImportDir(pkgdir, build.ImportMode(0))
if err != nil {
return nil, nil, err
}
for _, ev := range env {
if v := strings.TrimPrefix(ev, "CGO_CPPFLAGS"); v != ev {
bp.CgoCPPFLAGS = append(bp.CgoCPPFLAGS, strings.Fields(v)...)
} else if v := strings.TrimPrefix(ev, "CGO_CFLAGS"); v != ev {
bp.CgoCFLAGS = append(bp.CgoCFLAGS, strings.Fields(v)...)
} else if v := strings.TrimPrefix(ev, "CGO_CXXFLAGS"); v != ev {
bp.CgoCXXFLAGS = append(bp.CgoCXXFLAGS, strings.Fields(v)...)
} else if v := strings.TrimPrefix(ev, "CGO_LDFLAGS"); v != ev {
bp.CgoLDFLAGS = append(bp.CgoLDFLAGS, strings.Fields(v)...)
}
}
return cgo.Run(bp, pkgdir, tmpdir, true)
}