// Copyright 2017 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 main import ( "errors" "flag" "fmt" "hash/crc32" "io" "io/ioutil" "log" "os" "path/filepath" "sort" "strings" "android/soong/response" "github.com/google/blueprint/pathtools" "android/soong/jar" "android/soong/third_party/zip" ) // Input zip: we can open it, close it, and obtain an array of entries type InputZip interface { Name() string Open() error Close() error Entries() []*zip.File IsOpen() bool } // An entry that can be written to the output zip type ZipEntryContents interface { String() string IsDir() bool CRC32() uint32 Size() uint64 WriteToZip(dest string, zw *zip.Writer) error } // a ZipEntryFromZip is a ZipEntryContents that pulls its content from another zip // identified by the input zip and the index of the entry in its entries array type ZipEntryFromZip struct { inputZip InputZip index int name string isDir bool crc32 uint32 size uint64 } func NewZipEntryFromZip(inputZip InputZip, entryIndex int) *ZipEntryFromZip { fi := inputZip.Entries()[entryIndex] newEntry := ZipEntryFromZip{inputZip: inputZip, index: entryIndex, name: fi.Name, isDir: fi.FileInfo().IsDir(), crc32: fi.CRC32, size: fi.UncompressedSize64, } return &newEntry } func (ze ZipEntryFromZip) String() string { return fmt.Sprintf("%s!%s", ze.inputZip.Name(), ze.name) } func (ze ZipEntryFromZip) IsDir() bool { return ze.isDir } func (ze ZipEntryFromZip) CRC32() uint32 { return ze.crc32 } func (ze ZipEntryFromZip) Size() uint64 { return ze.size } func (ze ZipEntryFromZip) WriteToZip(dest string, zw *zip.Writer) error { if err := ze.inputZip.Open(); err != nil { return err } entry := ze.inputZip.Entries()[ze.index] entry.SetModTime(jar.DefaultTime) return zw.CopyFrom(entry, dest) } // a ZipEntryFromBuffer is a ZipEntryContents that pulls its content from a []byte type ZipEntryFromBuffer struct { fh *zip.FileHeader content []byte } func (be ZipEntryFromBuffer) String() string { return "internal buffer" } func (be ZipEntryFromBuffer) IsDir() bool { return be.fh.FileInfo().IsDir() } func (be ZipEntryFromBuffer) CRC32() uint32 { return crc32.ChecksumIEEE(be.content) } func (be ZipEntryFromBuffer) Size() uint64 { return uint64(len(be.content)) } func (be ZipEntryFromBuffer) WriteToZip(dest string, zw *zip.Writer) error { w, err := zw.CreateHeaderAndroid(be.fh) if err != nil { return err } if !be.IsDir() { _, err = w.Write(be.content) if err != nil { return err } } return nil } // Processing state. type OutputZip struct { outputWriter *zip.Writer stripDirEntries bool emulateJar bool sortEntries bool ignoreDuplicates bool excludeDirs []string excludeFiles []string sourceByDest map[string]ZipEntryContents } func NewOutputZip(outputWriter *zip.Writer, sortEntries, emulateJar, stripDirEntries, ignoreDuplicates bool) *OutputZip { return &OutputZip{ outputWriter: outputWriter, stripDirEntries: stripDirEntries, emulateJar: emulateJar, sortEntries: sortEntries, sourceByDest: make(map[string]ZipEntryContents, 0), ignoreDuplicates: ignoreDuplicates, } } func (oz *OutputZip) setExcludeDirs(excludeDirs []string) { oz.excludeDirs = make([]string, len(excludeDirs)) for i, dir := range excludeDirs { oz.excludeDirs[i] = filepath.Clean(dir) } } func (oz *OutputZip) setExcludeFiles(excludeFiles []string) { oz.excludeFiles = excludeFiles } // Adds an entry with given name whose source is given ZipEntryContents. Returns old ZipEntryContents // if entry with given name already exists. func (oz *OutputZip) addZipEntry(name string, source ZipEntryContents) (ZipEntryContents, error) { if existingSource, exists := oz.sourceByDest[name]; exists { return existingSource, nil } oz.sourceByDest[name] = source // Delay writing an entry if entries need to be rearranged. if oz.emulateJar || oz.sortEntries { return nil, nil } return nil, source.WriteToZip(name, oz.outputWriter) } // Adds an entry for the manifest (META-INF/MANIFEST.MF from the given file func (oz *OutputZip) addManifest(manifestPath string) error { if !oz.stripDirEntries { if _, err := oz.addZipEntry(jar.MetaDir, ZipEntryFromBuffer{jar.MetaDirFileHeader(), nil}); err != nil { return err } } contents, err := ioutil.ReadFile(manifestPath) if err == nil { fh, buf, err := jar.ManifestFileContents(contents) if err == nil { _, err = oz.addZipEntry(jar.ManifestFile, ZipEntryFromBuffer{fh, buf}) } } return err } // Adds an entry with given name and contents read from given file func (oz *OutputZip) addZipEntryFromFile(name string, path string) error { buf, err := ioutil.ReadFile(path) if err == nil { fh := &zip.FileHeader{ Name: name, Method: zip.Store, UncompressedSize64: uint64(len(buf)), } fh.SetMode(0700) fh.SetModTime(jar.DefaultTime) _, err = oz.addZipEntry(name, ZipEntryFromBuffer{fh, buf}) } return err } func (oz *OutputZip) addEmptyEntry(entry string) error { var emptyBuf []byte fh := &zip.FileHeader{ Name: entry, Method: zip.Store, UncompressedSize64: uint64(len(emptyBuf)), } fh.SetMode(0700) fh.SetModTime(jar.DefaultTime) _, err := oz.addZipEntry(entry, ZipEntryFromBuffer{fh, emptyBuf}) return err } // Returns true if given entry is to be excluded func (oz *OutputZip) isEntryExcluded(name string) bool { for _, dir := range oz.excludeDirs { dir = filepath.Clean(dir) patterns := []string{ dir + "/", // the directory itself dir + "/**/*", // files recursively in the directory dir + "/**/*/", // directories recursively in the directory } for _, pattern := range patterns { match, err := pathtools.Match(pattern, name) if err != nil { panic(fmt.Errorf("%s: %s", err.Error(), pattern)) } if match { if oz.emulateJar { // When merging jar files, don't strip META-INF/MANIFEST.MF even if stripping META-INF is // requested. // TODO(ccross): which files does this affect? if name != jar.MetaDir && name != jar.ManifestFile { return true } } return true } } } for _, pattern := range oz.excludeFiles { match, err := pathtools.Match(pattern, name) if err != nil { panic(fmt.Errorf("%s: %s", err.Error(), pattern)) } if match { return true } } return false } // Creates a zip entry whose contents is an entry from the given input zip. func (oz *OutputZip) copyEntry(inputZip InputZip, index int) error { entry := NewZipEntryFromZip(inputZip, index) if oz.stripDirEntries && entry.IsDir() { return nil } existingEntry, err := oz.addZipEntry(entry.name, entry) if err != nil { return err } if existingEntry == nil { return nil } // File types should match if existingEntry.IsDir() != entry.IsDir() { return fmt.Errorf("Directory/file mismatch at %v from %v and %v\n", entry.name, existingEntry, entry) } if oz.ignoreDuplicates || // Skip manifest and module info files that are not from the first input file (oz.emulateJar && entry.name == jar.ManifestFile || entry.name == jar.ModuleInfoClass) || // Identical entries (existingEntry.CRC32() == entry.CRC32() && existingEntry.Size() == entry.Size()) || // Directory entries entry.IsDir() { return nil } return fmt.Errorf("Duplicate path %v found in %v and %v\n", entry.name, existingEntry, inputZip.Name()) } func (oz *OutputZip) entriesArray() []string { entries := make([]string, len(oz.sourceByDest)) i := 0 for entry := range oz.sourceByDest { entries[i] = entry i++ } return entries } func (oz *OutputZip) jarSorted() []string { entries := oz.entriesArray() sort.SliceStable(entries, func(i, j int) bool { return jar.EntryNamesLess(entries[i], entries[j]) }) return entries } func (oz *OutputZip) alphanumericSorted() []string { entries := oz.entriesArray() sort.Strings(entries) return entries } func (oz *OutputZip) writeEntries(entries []string) error { for _, entry := range entries { source, _ := oz.sourceByDest[entry] if err := source.WriteToZip(entry, oz.outputWriter); err != nil { return err } } return nil } func (oz *OutputZip) getUninitializedPythonPackages(inputZips []InputZip) ([]string, error) { // the runfiles packages needs to be populated with "__init__.py". // the runfiles dirs have been treated as packages. var allPackages []string // Using a slice to preserve input order. seenPkgs := make(map[string]bool) initedPackages := make(map[string]bool) getPackage := func(path string) string { ret := filepath.Dir(path) // filepath.Dir("abc") -> "." and filepath.Dir("/abc") -> "/". if ret == "." || ret == "/" { return "" } return ret } // put existing __init__.py files to a set first. This set is used for preventing // generated __init__.py files from overwriting existing ones. for _, inputZip := range inputZips { if err := inputZip.Open(); err != nil { return nil, err } for _, file := range inputZip.Entries() { pyPkg := getPackage(file.Name) baseName := filepath.Base(file.Name) if baseName == "__init__.py" || baseName == "__init__.pyc" { if _, found := initedPackages[pyPkg]; found { panic(fmt.Errorf("found __init__.py path duplicates during pars merging: %q", file.Name)) } initedPackages[pyPkg] = true } for pyPkg != "" { if _, found := seenPkgs[pyPkg]; found { break } seenPkgs[pyPkg] = true allPackages = append(allPackages, pyPkg) pyPkg = getPackage(pyPkg) } } } noInitPackages := make([]string, 0) for _, pyPkg := range allPackages { if _, found := initedPackages[pyPkg]; !found { noInitPackages = append(noInitPackages, pyPkg) } } return noInitPackages, nil } // An InputZip owned by the InputZipsManager. Opened ManagedInputZip's are chained in the open order. type ManagedInputZip struct { owner *InputZipsManager realInputZip InputZip older *ManagedInputZip newer *ManagedInputZip } // Maintains the array of ManagedInputZips, keeping track of open input ones. When an InputZip is opened, // may close some other InputZip to limit the number of open ones. type InputZipsManager struct { inputZips []*ManagedInputZip nOpenZips int maxOpenZips int openInputZips *ManagedInputZip } func (miz *ManagedInputZip) unlink() { olderMiz := miz.older newerMiz := miz.newer if newerMiz.older != miz || olderMiz.newer != miz { panic(fmt.Errorf("removing %p:%#v: broken list between %p:%#v and %p:%#v", miz, miz, newerMiz, newerMiz, olderMiz, olderMiz)) } olderMiz.newer = newerMiz newerMiz.older = olderMiz miz.newer = nil miz.older = nil } func (miz *ManagedInputZip) link(olderMiz *ManagedInputZip) { if olderMiz.newer != nil || olderMiz.older != nil { panic(fmt.Errorf("inputZip is already open")) } oldOlderMiz := miz.older if oldOlderMiz.newer != miz { panic(fmt.Errorf("broken list between %p:%#v and %p:%#v", miz, miz, oldOlderMiz, oldOlderMiz)) } miz.older = olderMiz olderMiz.older = oldOlderMiz oldOlderMiz.newer = olderMiz olderMiz.newer = miz } func NewInputZipsManager(nInputZips, maxOpenZips int) *InputZipsManager { if maxOpenZips < 3 { panic(fmt.Errorf("open zips limit should be above 3")) } // In the fake element .older points to the most recently opened InputZip, and .newer points to the oldest. head := new(ManagedInputZip) head.older = head head.newer = head return &InputZipsManager{ inputZips: make([]*ManagedInputZip, 0, nInputZips), maxOpenZips: maxOpenZips, openInputZips: head, } } // InputZip factory func (izm *InputZipsManager) Manage(inz InputZip) InputZip { iz := &ManagedInputZip{owner: izm, realInputZip: inz} izm.inputZips = append(izm.inputZips, iz) return iz } // Opens or reopens ManagedInputZip. func (izm *InputZipsManager) reopen(miz *ManagedInputZip) error { if miz.realInputZip.IsOpen() { if miz != izm.openInputZips { miz.unlink() izm.openInputZips.link(miz) } return nil } if izm.nOpenZips >= izm.maxOpenZips { if err := izm.close(izm.openInputZips.older); err != nil { return err } } if err := miz.realInputZip.Open(); err != nil { return err } izm.openInputZips.link(miz) izm.nOpenZips++ return nil } func (izm *InputZipsManager) close(miz *ManagedInputZip) error { if miz.IsOpen() { err := miz.realInputZip.Close() izm.nOpenZips-- miz.unlink() return err } return nil } // Checks that openInputZips deque is valid func (izm *InputZipsManager) checkOpenZipsDeque() { nReallyOpen := 0 el := izm.openInputZips for { elNext := el.older if elNext.newer != el { panic(fmt.Errorf("Element:\n %p: %v\nNext:\n %p %v", el, el, elNext, elNext)) } if elNext == izm.openInputZips { break } el = elNext if !el.IsOpen() { panic(fmt.Errorf("Found unopened element")) } nReallyOpen++ if nReallyOpen > izm.nOpenZips { panic(fmt.Errorf("found %d open zips, should be %d", nReallyOpen, izm.nOpenZips)) } } if nReallyOpen > izm.nOpenZips { panic(fmt.Errorf("found %d open zips, should be %d", nReallyOpen, izm.nOpenZips)) } } func (miz *ManagedInputZip) Name() string { return miz.realInputZip.Name() } func (miz *ManagedInputZip) Open() error { return miz.owner.reopen(miz) } func (miz *ManagedInputZip) Close() error { return miz.owner.close(miz) } func (miz *ManagedInputZip) IsOpen() bool { return miz.realInputZip.IsOpen() } func (miz *ManagedInputZip) Entries() []*zip.File { if !miz.IsOpen() { panic(fmt.Errorf("%s: is not open", miz.Name())) } return miz.realInputZip.Entries() } // Actual processing. func mergeZips(inputZips []InputZip, writer *zip.Writer, manifest, pyMain string, sortEntries, emulateJar, emulatePar, stripDirEntries, ignoreDuplicates bool, excludeFiles, excludeDirs []string, zipsToNotStrip map[string]bool) error { out := NewOutputZip(writer, sortEntries, emulateJar, stripDirEntries, ignoreDuplicates) out.setExcludeFiles(excludeFiles) out.setExcludeDirs(excludeDirs) if manifest != "" { if err := out.addManifest(manifest); err != nil { return err } } if pyMain != "" { if err := out.addZipEntryFromFile("__main__.py", pyMain); err != nil { return err } } if emulatePar { noInitPackages, err := out.getUninitializedPythonPackages(inputZips) if err != nil { return err } for _, uninitializedPyPackage := range noInitPackages { if err = out.addEmptyEntry(filepath.Join(uninitializedPyPackage, "__init__.py")); err != nil { return err } } } var jarServices jar.Services // Finally, add entries from all the input zips. for _, inputZip := range inputZips { _, copyFully := zipsToNotStrip[inputZip.Name()] if err := inputZip.Open(); err != nil { return err } for i, entry := range inputZip.Entries() { if emulateJar && jarServices.IsServiceFile(entry) { // If this is a jar, collect service files to combine instead of adding them to the zip. err := jarServices.AddServiceFile(entry) if err != nil { return err } continue } if copyFully || !out.isEntryExcluded(entry.Name) { if err := out.copyEntry(inputZip, i); err != nil { return err } } } // Unless we need to rearrange the entries, the input zip can now be closed. if !(emulateJar || sortEntries) { if err := inputZip.Close(); err != nil { return err } } } if emulateJar { // Combine all the service files into a single list of combined service files and add them to the zip. for _, serviceFile := range jarServices.ServiceFiles() { _, err := out.addZipEntry(serviceFile.Name, ZipEntryFromBuffer{ fh: serviceFile.FileHeader, content: serviceFile.Contents, }) if err != nil { return err } } return out.writeEntries(out.jarSorted()) } else if sortEntries { return out.writeEntries(out.alphanumericSorted()) } return nil } // Process command line type fileList []string func (f *fileList) String() string { return `""` } func (f *fileList) Set(name string) error { *f = append(*f, filepath.Clean(name)) return nil } type zipsToNotStripSet map[string]bool func (s zipsToNotStripSet) String() string { return `""` } func (s zipsToNotStripSet) Set(path string) error { s[path] = true return nil } var ( sortEntries = flag.Bool("s", false, "sort entries (defaults to the order from the input zip files)") emulateJar = flag.Bool("j", false, "sort zip entries using jar ordering (META-INF first)") emulatePar = flag.Bool("p", false, "merge zip entries based on par format") excludeDirs fileList excludeFiles fileList zipsToNotStrip = make(zipsToNotStripSet) stripDirEntries = flag.Bool("D", false, "strip directory entries from the output zip file") manifest = flag.String("m", "", "manifest file to insert in jar") pyMain = flag.String("pm", "", "__main__.py file to insert in par") prefix = flag.String("prefix", "", "A file to prefix to the zip file") ignoreDuplicates = flag.Bool("ignore-duplicates", false, "take each entry from the first zip it exists in and don't warn") ) func init() { flag.Var(&excludeDirs, "stripDir", "directories to be excluded from the output zip, accepts wildcards") flag.Var(&excludeFiles, "stripFile", "files to be excluded from the output zip, accepts wildcards") flag.Var(&zipsToNotStrip, "zipToNotStrip", "the input zip file which is not applicable for stripping") } type FileInputZip struct { name string reader *zip.ReadCloser } func (fiz *FileInputZip) Name() string { return fiz.name } func (fiz *FileInputZip) Close() error { if fiz.IsOpen() { reader := fiz.reader fiz.reader = nil return reader.Close() } return nil } func (fiz *FileInputZip) Entries() []*zip.File { if !fiz.IsOpen() { panic(fmt.Errorf("%s: is not open", fiz.Name())) } return fiz.reader.File } func (fiz *FileInputZip) IsOpen() bool { return fiz.reader != nil } func (fiz *FileInputZip) Open() error { if fiz.IsOpen() { return nil } var err error if fiz.reader, err = zip.OpenReader(fiz.Name()); err != nil { return fmt.Errorf("%s: %s", fiz.Name(), err.Error()) } return nil } func main() { flag.Usage = func() { fmt.Fprintln(os.Stderr, "usage: merge_zips [-jpsD] [-m manifest] [--prefix script] [-pm __main__.py] OutputZip [inputs...]") flag.PrintDefaults() } // parse args flag.Parse() args := flag.Args() if len(args) < 1 { flag.Usage() os.Exit(1) } outputPath := args[0] inputs := make([]string, 0) for _, input := range args[1:] { if input[0] == '@' { f, err := os.Open(strings.TrimPrefix(input[1:], "@")) if err != nil { log.Fatal(err) } rspInputs, err := response.ReadRspFile(f) f.Close() if err != nil { log.Fatal(err) } inputs = append(inputs, rspInputs...) } else { inputs = append(inputs, input) } } log.SetFlags(log.Lshortfile) // make writer outputZip, err := os.Create(outputPath) if err != nil { log.Fatal(err) } defer outputZip.Close() var offset int64 if *prefix != "" { prefixFile, err := os.Open(*prefix) if err != nil { log.Fatal(err) } offset, err = io.Copy(outputZip, prefixFile) if err != nil { log.Fatal(err) } } writer := zip.NewWriter(outputZip) defer func() { err := writer.Close() if err != nil { log.Fatal(err) } }() writer.SetOffset(offset) if *manifest != "" && !*emulateJar { log.Fatal(errors.New("must specify -j when specifying a manifest via -m")) } if *pyMain != "" && !*emulatePar { log.Fatal(errors.New("must specify -p when specifying a Python __main__.py via -pm")) } // do merge inputZipsManager := NewInputZipsManager(len(inputs), 1000) inputZips := make([]InputZip, len(inputs)) for i, input := range inputs { inputZips[i] = inputZipsManager.Manage(&FileInputZip{name: input}) } err = mergeZips(inputZips, writer, *manifest, *pyMain, *sortEntries, *emulateJar, *emulatePar, *stripDirEntries, *ignoreDuplicates, []string(excludeFiles), []string(excludeDirs), map[string]bool(zipsToNotStrip)) if err != nil { log.Fatal(err) } }