platform_build_soong/bp2build/symlink_forest.go
Christopher Parsons ed2873aea0 Revert "Multithread symlink forest removal."
This reverts commit 6b236f1607.

Reason for revert: Breaks ab/aosp-master-bazel incremental builds. Details on b/254338319

Change-Id: I37eeeda50cff0475d91e7926fdf74216975a0037
2022-10-28 15:43:48 +00:00

353 lines
11 KiB
Go

// Copyright 2022 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package bp2build
import (
"fmt"
"io/ioutil"
"os"
"path/filepath"
"regexp"
"sync"
"sync/atomic"
"android/soong/shared"
)
// A tree structure that describes what to do at each directory in the created
// symlink tree. Currently it is used to enumerate which files/directories
// should be excluded from symlinking. Each instance of "node" represents a file
// or a directory. If excluded is true, then that file/directory should be
// excluded from symlinking. Otherwise, the node is not excluded, but one of its
// descendants is (otherwise the node in question would not exist)
type instructionsNode struct {
name string
excluded bool // If false, this is just an intermediate node
children map[string]*instructionsNode
}
type symlinkForestContext struct {
verbose bool
topdir string // $TOPDIR
// State
wg sync.WaitGroup
depCh chan string
okay atomic.Bool // Whether the forest was successfully constructed
}
// Ensures that the node for the given path exists in the tree and returns it.
func ensureNodeExists(root *instructionsNode, path string) *instructionsNode {
if path == "" {
return root
}
if path[len(path)-1] == '/' {
path = path[:len(path)-1] // filepath.Split() leaves a trailing slash
}
dir, base := filepath.Split(path)
// First compute the parent node...
dn := ensureNodeExists(root, dir)
// then create the requested node as its direct child, if needed.
if child, ok := dn.children[base]; ok {
return child
} else {
dn.children[base] = &instructionsNode{base, false, make(map[string]*instructionsNode)}
return dn.children[base]
}
}
// Turns a list of paths to be excluded into a tree
func instructionsFromExcludePathList(paths []string) *instructionsNode {
result := &instructionsNode{"", false, make(map[string]*instructionsNode)}
for _, p := range paths {
ensureNodeExists(result, p).excluded = true
}
return result
}
func mergeBuildFiles(output string, srcBuildFile string, generatedBuildFile string, verbose bool) error {
srcBuildFileContent, err := os.ReadFile(srcBuildFile)
if err != nil {
return err
}
generatedBuildFileContent, err := os.ReadFile(generatedBuildFile)
if err != nil {
return err
}
// There can't be a package() call in both the source and generated BUILD files.
// bp2build will generate a package() call for licensing information, but if
// there's no licensing information, it will still generate a package() call
// that just sets default_visibility=public. If the handcrafted build file
// also has a package() call, we'll allow it to override the bp2build
// generated one if it doesn't have any licensing information. If the bp2build
// one has licensing information and the handcrafted one exists, we'll leave
// them both in for bazel to throw an error.
packageRegex := regexp.MustCompile(`(?m)^package\s*\(`)
packageDefaultVisibilityRegex := regexp.MustCompile(`(?m)^package\s*\(\s*default_visibility\s*=\s*\[\s*"//visibility:public",?\s*]\s*\)`)
if packageRegex.Find(srcBuildFileContent) != nil {
if verbose && packageDefaultVisibilityRegex.Find(generatedBuildFileContent) != nil {
fmt.Fprintf(os.Stderr, "Both '%s' and '%s' have a package() target, removing the first one\n",
generatedBuildFile, srcBuildFile)
}
generatedBuildFileContent = packageDefaultVisibilityRegex.ReplaceAll(generatedBuildFileContent, []byte{})
}
outFile, err := os.Create(output)
if err != nil {
return err
}
_, err = outFile.Write(generatedBuildFileContent)
if err != nil {
return err
}
if generatedBuildFileContent[len(generatedBuildFileContent)-1] != '\n' {
_, err = outFile.WriteString("\n")
if err != nil {
return err
}
}
_, err = outFile.Write(srcBuildFileContent)
return err
}
// Calls readdir() and returns it as a map from the basename of the files in dir
// to os.FileInfo.
func readdirToMap(dir string) map[string]os.FileInfo {
entryList, err := ioutil.ReadDir(dir)
result := make(map[string]os.FileInfo)
if err != nil {
if os.IsNotExist(err) {
// It's okay if a directory doesn't exist; it just means that one of the
// trees to be merged contains parts the other doesn't
return result
} else {
fmt.Fprintf(os.Stderr, "Cannot readdir '%s': %s\n", dir, err)
os.Exit(1)
}
}
for _, fi := range entryList {
result[fi.Name()] = fi
}
return result
}
// Creates a symbolic link at dst pointing to src
func symlinkIntoForest(topdir, dst, src string) {
err := os.Symlink(shared.JoinPath(topdir, src), shared.JoinPath(topdir, dst))
if err != nil {
fmt.Fprintf(os.Stderr, "Cannot create symlink at '%s' pointing to '%s': %s", dst, src, err)
os.Exit(1)
}
}
func isDir(path string, fi os.FileInfo) bool {
if (fi.Mode() & os.ModeSymlink) != os.ModeSymlink {
return fi.IsDir()
}
fi2, statErr := os.Stat(path)
if statErr == nil {
return fi2.IsDir()
}
// Check if this is a dangling symlink. If so, treat it like a file, not a dir.
_, lstatErr := os.Lstat(path)
if lstatErr != nil {
fmt.Fprintf(os.Stderr, "Cannot stat or lstat '%s': %s\n%s\n", path, statErr, lstatErr)
os.Exit(1)
}
return false
}
// Recursively plants a symlink forest at forestDir. The symlink tree will
// contain every file in buildFilesDir and srcDir excluding the files in
// instructions. Collects every directory encountered during the traversal of
// srcDir .
func plantSymlinkForestRecursive(context *symlinkForestContext, instructions *instructionsNode, forestDir string, buildFilesDir string, srcDir string) {
defer context.wg.Done()
if instructions != nil && instructions.excluded {
// This directory is not needed, bail out
return
}
// We don't add buildFilesDir here because the bp2build files marker files is
// already a dependency which covers it. If we ever wanted to turn this into
// a generic symlink forest creation tool, we'd need to add it, too.
context.depCh <- srcDir
srcDirMap := readdirToMap(shared.JoinPath(context.topdir, srcDir))
buildFilesMap := readdirToMap(shared.JoinPath(context.topdir, buildFilesDir))
renamingBuildFile := false
if _, ok := srcDirMap["BUILD"]; ok {
if _, ok := srcDirMap["BUILD.bazel"]; !ok {
if _, ok := buildFilesMap["BUILD.bazel"]; ok {
renamingBuildFile = true
srcDirMap["BUILD.bazel"] = srcDirMap["BUILD"]
delete(srcDirMap, "BUILD")
}
}
}
allEntries := make(map[string]struct{})
for n := range srcDirMap {
allEntries[n] = struct{}{}
}
for n := range buildFilesMap {
allEntries[n] = struct{}{}
}
err := os.MkdirAll(shared.JoinPath(context.topdir, forestDir), 0777)
if err != nil {
fmt.Fprintf(os.Stderr, "Cannot mkdir '%s': %s\n", forestDir, err)
os.Exit(1)
}
for f := range allEntries {
if f[0] == '.' {
continue // Ignore dotfiles
}
// The full paths of children in the input trees and in the output tree
forestChild := shared.JoinPath(forestDir, f)
srcChild := shared.JoinPath(srcDir, f)
if f == "BUILD.bazel" && renamingBuildFile {
srcChild = shared.JoinPath(srcDir, "BUILD")
}
buildFilesChild := shared.JoinPath(buildFilesDir, f)
// Descend in the instruction tree if it exists
var instructionsChild *instructionsNode = nil
if instructions != nil {
if f == "BUILD.bazel" && renamingBuildFile {
instructionsChild = instructions.children["BUILD"]
} else {
instructionsChild = instructions.children[f]
}
}
srcChildEntry, sExists := srcDirMap[f]
buildFilesChildEntry, bExists := buildFilesMap[f]
if instructionsChild != nil && instructionsChild.excluded {
if bExists {
symlinkIntoForest(context.topdir, forestChild, buildFilesChild)
}
continue
}
sDir := sExists && isDir(shared.JoinPath(context.topdir, srcChild), srcChildEntry)
bDir := bExists && isDir(shared.JoinPath(context.topdir, buildFilesChild), buildFilesChildEntry)
if !sExists {
if bDir && instructionsChild != nil {
// Not in the source tree, but we have to exclude something from under
// this subtree, so descend
context.wg.Add(1)
go plantSymlinkForestRecursive(context, instructionsChild, forestChild, buildFilesChild, srcChild)
} else {
// Not in the source tree, symlink BUILD file
symlinkIntoForest(context.topdir, forestChild, buildFilesChild)
}
} else if !bExists {
if sDir && instructionsChild != nil {
// Not in the build file tree, but we have to exclude something from
// under this subtree, so descend
context.wg.Add(1)
go plantSymlinkForestRecursive(context, instructionsChild, forestChild, buildFilesChild, srcChild)
} else {
// Not in the build file tree, symlink source tree, carry on
symlinkIntoForest(context.topdir, forestChild, srcChild)
}
} else if sDir && bDir {
// Both are directories. Descend.
context.wg.Add(1)
go plantSymlinkForestRecursive(context, instructionsChild, forestChild, buildFilesChild, srcChild)
} else if !sDir && !bDir {
// Neither is a directory. Merge them.
srcBuildFile := shared.JoinPath(context.topdir, srcChild)
generatedBuildFile := shared.JoinPath(context.topdir, buildFilesChild)
// The Android.bp file that codegen used to produce `buildFilesChild` is
// already a dependency, we can ignore `buildFilesChild`.
context.depCh <- srcChild
err = mergeBuildFiles(shared.JoinPath(context.topdir, forestChild), srcBuildFile, generatedBuildFile, context.verbose)
if err != nil {
fmt.Fprintf(os.Stderr, "Error merging %s and %s: %s",
srcBuildFile, generatedBuildFile, err)
context.okay.Store(false)
}
} else {
// Both exist and one is a file. This is an error.
fmt.Fprintf(os.Stderr,
"Conflict in workspace symlink tree creation: both '%s' and '%s' exist and exactly one is a directory\n",
srcChild, buildFilesChild)
context.okay.Store(false)
}
}
}
// Creates a symlink forest by merging the directory tree at "buildFiles" and
// "srcDir" while excluding paths listed in "exclude". Returns the set of paths
// under srcDir on which readdir() had to be called to produce the symlink
// forest.
func PlantSymlinkForest(verbose bool, topdir string, forest string, buildFiles string, exclude []string) []string {
context := &symlinkForestContext{
verbose: verbose,
topdir: topdir,
depCh: make(chan string),
}
context.okay.Store(true)
os.RemoveAll(shared.JoinPath(topdir, forest))
instructions := instructionsFromExcludePathList(exclude)
go func() {
context.wg.Add(1)
plantSymlinkForestRecursive(context, instructions, forest, buildFiles, ".")
context.wg.Wait()
close(context.depCh)
}()
deps := make([]string, 0)
for dep := range context.depCh {
deps = append(deps, dep)
}
if !context.okay.Load() {
os.Exit(1)
}
return deps
}