// Copyright 2018 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 zip import ( "bytes" "hash/crc32" "io" "os" "reflect" "syscall" "testing" "android/soong/third_party/zip" "github.com/google/blueprint/pathtools" ) var ( fileA = []byte("AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA") fileB = []byte("BBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBB") fileC = []byte("CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC") fileEmpty = []byte("") fileManifest = []byte("Manifest-Version: 1.0\nCreated-By: soong_zip\n\n") fileCustomManifest = []byte("Custom manifest: true\n") customManifestAfter = []byte("Manifest-Version: 1.0\nCreated-By: soong_zip\nCustom manifest: true\n\n") ) var mockFs = pathtools.MockFs(map[string][]byte{ "a/a/a": fileA, "a/a/b": fileB, "a/a/c -> ../../c": nil, "dangling -> missing": nil, "a/a/d -> b": nil, "c": fileC, "d/a/a": nil, "l_nl": []byte("a/a/a\na/a/b\nc\n\\[\n"), "l_sp": []byte("a/a/a a/a/b c \\["), "l2": []byte("missing\n"), "rsp": []byte("'a/a/a'\na/a/b\n'@'\n'foo'\\''bar'\n'['"), "@ -> c": nil, "foo'bar -> c": nil, "manifest.txt": fileCustomManifest, "[": fileEmpty, }) func fh(name string, contents []byte, method uint16) zip.FileHeader { return zip.FileHeader{ Name: name, Method: method, CRC32: crc32.ChecksumIEEE(contents), UncompressedSize64: uint64(len(contents)), ExternalAttrs: (syscall.S_IFREG | 0644) << 16, } } func fhManifest(contents []byte) zip.FileHeader { return zip.FileHeader{ Name: "META-INF/MANIFEST.MF", Method: zip.Store, CRC32: crc32.ChecksumIEEE(contents), UncompressedSize64: uint64(len(contents)), ExternalAttrs: (syscall.S_IFREG | 0644) << 16, } } func fhLink(name string, to string) zip.FileHeader { return zip.FileHeader{ Name: name, Method: zip.Store, CRC32: crc32.ChecksumIEEE([]byte(to)), UncompressedSize64: uint64(len(to)), ExternalAttrs: (syscall.S_IFLNK | 0777) << 16, } } func fhDir(name string) zip.FileHeader { return zip.FileHeader{ Name: name, Method: zip.Store, CRC32: crc32.ChecksumIEEE(nil), UncompressedSize64: 0, ExternalAttrs: (syscall.S_IFDIR|0755)<<16 | 0x10, } } func fileArgsBuilder() *FileArgsBuilder { return &FileArgsBuilder{ fs: mockFs, } } func TestZip(t *testing.T) { testCases := []struct { name string args *FileArgsBuilder compressionLevel int emulateJar bool nonDeflatedFiles map[string]bool dirEntries bool manifest string storeSymlinks bool ignoreMissingFiles bool files []zip.FileHeader err error }{ { name: "empty args", args: fileArgsBuilder(), files: []zip.FileHeader{}, }, { name: "files", args: fileArgsBuilder(). File("a/a/a"). File("a/a/b"). File("c"). File(`\[`), compressionLevel: 9, files: []zip.FileHeader{ fh("a/a/a", fileA, zip.Deflate), fh("a/a/b", fileB, zip.Deflate), fh("c", fileC, zip.Deflate), fh("[", fileEmpty, zip.Store), }, }, { name: "files glob", args: fileArgsBuilder(). SourcePrefixToStrip("a"). File("a/**/*"), compressionLevel: 9, storeSymlinks: true, files: []zip.FileHeader{ fh("a/a", fileA, zip.Deflate), fh("a/b", fileB, zip.Deflate), fhLink("a/c", "../../c"), fhLink("a/d", "b"), }, }, { name: "dir", args: fileArgsBuilder(). SourcePrefixToStrip("a"). Dir("a"), compressionLevel: 9, storeSymlinks: true, files: []zip.FileHeader{ fh("a/a", fileA, zip.Deflate), fh("a/b", fileB, zip.Deflate), fhLink("a/c", "../../c"), fhLink("a/d", "b"), }, }, { name: "stored files", args: fileArgsBuilder(). File("a/a/a"). File("a/a/b"). File("c"), compressionLevel: 0, files: []zip.FileHeader{ fh("a/a/a", fileA, zip.Store), fh("a/a/b", fileB, zip.Store), fh("c", fileC, zip.Store), }, }, { name: "symlinks in zip", args: fileArgsBuilder(). File("a/a/a"). File("a/a/b"). File("a/a/c"). File("a/a/d"), compressionLevel: 9, storeSymlinks: true, files: []zip.FileHeader{ fh("a/a/a", fileA, zip.Deflate), fh("a/a/b", fileB, zip.Deflate), fhLink("a/a/c", "../../c"), fhLink("a/a/d", "b"), }, }, { name: "follow symlinks", args: fileArgsBuilder(). File("a/a/a"). File("a/a/b"). File("a/a/c"). File("a/a/d"), compressionLevel: 9, storeSymlinks: false, files: []zip.FileHeader{ fh("a/a/a", fileA, zip.Deflate), fh("a/a/b", fileB, zip.Deflate), fh("a/a/c", fileC, zip.Deflate), fh("a/a/d", fileB, zip.Deflate), }, }, { name: "dangling symlinks", args: fileArgsBuilder(). File("dangling"), compressionLevel: 9, storeSymlinks: true, files: []zip.FileHeader{ fhLink("dangling", "missing"), }, }, { name: "list", args: fileArgsBuilder(). List("l_nl"), compressionLevel: 9, files: []zip.FileHeader{ fh("a/a/a", fileA, zip.Deflate), fh("a/a/b", fileB, zip.Deflate), fh("c", fileC, zip.Deflate), fh("[", fileEmpty, zip.Store), }, }, { name: "list", args: fileArgsBuilder(). List("l_sp"), compressionLevel: 9, files: []zip.FileHeader{ fh("a/a/a", fileA, zip.Deflate), fh("a/a/b", fileB, zip.Deflate), fh("c", fileC, zip.Deflate), fh("[", fileEmpty, zip.Store), }, }, { name: "rsp", args: fileArgsBuilder(). RspFile("rsp"), compressionLevel: 9, files: []zip.FileHeader{ fh("a/a/a", fileA, zip.Deflate), fh("a/a/b", fileB, zip.Deflate), fh("@", fileC, zip.Deflate), fh("foo'bar", fileC, zip.Deflate), fh("[", fileEmpty, zip.Store), }, }, { name: "prefix in zip", args: fileArgsBuilder(). PathPrefixInZip("foo"). File("a/a/a"). File("a/a/b"). File("c"), compressionLevel: 9, files: []zip.FileHeader{ fh("foo/a/a/a", fileA, zip.Deflate), fh("foo/a/a/b", fileB, zip.Deflate), fh("foo/c", fileC, zip.Deflate), }, }, { name: "relative root", args: fileArgsBuilder(). SourcePrefixToStrip("a"). File("a/a/a"). File("a/a/b"), compressionLevel: 9, files: []zip.FileHeader{ fh("a/a", fileA, zip.Deflate), fh("a/b", fileB, zip.Deflate), }, }, { name: "multiple relative root", args: fileArgsBuilder(). SourcePrefixToStrip("a"). File("a/a/a"). SourcePrefixToStrip("a/a"). File("a/a/b"), compressionLevel: 9, files: []zip.FileHeader{ fh("a/a", fileA, zip.Deflate), fh("b", fileB, zip.Deflate), }, }, { name: "emulate jar", args: fileArgsBuilder(). File("a/a/a"). File("a/a/b"), compressionLevel: 9, emulateJar: true, files: []zip.FileHeader{ fhDir("META-INF/"), fhManifest(fileManifest), fhDir("a/"), fhDir("a/a/"), fh("a/a/a", fileA, zip.Deflate), fh("a/a/b", fileB, zip.Deflate), }, }, { name: "emulate jar with manifest", args: fileArgsBuilder(). File("a/a/a"). File("a/a/b"), compressionLevel: 9, emulateJar: true, manifest: "manifest.txt", files: []zip.FileHeader{ fhDir("META-INF/"), fhManifest(customManifestAfter), fhDir("a/"), fhDir("a/a/"), fh("a/a/a", fileA, zip.Deflate), fh("a/a/b", fileB, zip.Deflate), }, }, { name: "dir entries", args: fileArgsBuilder(). File("a/a/a"). File("a/a/b"), compressionLevel: 9, dirEntries: true, files: []zip.FileHeader{ fhDir("a/"), fhDir("a/a/"), fh("a/a/a", fileA, zip.Deflate), fh("a/a/b", fileB, zip.Deflate), }, }, { name: "junk paths", args: fileArgsBuilder(). JunkPaths(true). File("a/a/a"). File("a/a/b"), compressionLevel: 9, files: []zip.FileHeader{ fh("a", fileA, zip.Deflate), fh("b", fileB, zip.Deflate), }, }, { name: "non deflated files", args: fileArgsBuilder(). File("a/a/a"). File("a/a/b"), compressionLevel: 9, nonDeflatedFiles: map[string]bool{"a/a/a": true}, files: []zip.FileHeader{ fh("a/a/a", fileA, zip.Store), fh("a/a/b", fileB, zip.Deflate), }, }, { name: "ignore missing files", args: fileArgsBuilder(). File("a/a/a"). File("a/a/b"). File("missing"), compressionLevel: 9, ignoreMissingFiles: true, files: []zip.FileHeader{ fh("a/a/a", fileA, zip.Deflate), fh("a/a/b", fileB, zip.Deflate), }, }, { name: "duplicate sources", args: fileArgsBuilder(). File("a/a/a"). File("a/a/a"), compressionLevel: 9, files: []zip.FileHeader{ fh("a/a/a", fileA, zip.Deflate), }, }, // errors { name: "error missing file", args: fileArgsBuilder(). File("missing"), err: os.ErrNotExist, }, { name: "error missing dir", args: fileArgsBuilder(). Dir("missing"), err: os.ErrNotExist, }, { name: "error missing file in list", args: fileArgsBuilder(). List("l2"), err: os.ErrNotExist, }, { name: "error incorrect relative root", args: fileArgsBuilder(). SourcePrefixToStrip("b"). File("a/a/a"), err: IncorrectRelativeRootError{}, }, { name: "error conflicting file", args: fileArgsBuilder(). SourcePrefixToStrip("a"). File("a/a/a"). SourcePrefixToStrip("d"). File("d/a/a"), err: ConflictingFileError{}, }, } for _, test := range testCases { t.Run(test.name, func(t *testing.T) { if test.args.Error() != nil { t.Fatal(test.args.Error()) } args := ZipArgs{} args.FileArgs = test.args.FileArgs() args.CompressionLevel = test.compressionLevel args.EmulateJar = test.emulateJar args.AddDirectoryEntriesToZip = test.dirEntries args.NonDeflatedFiles = test.nonDeflatedFiles args.ManifestSourcePath = test.manifest args.StoreSymlinks = test.storeSymlinks args.IgnoreMissingFiles = test.ignoreMissingFiles args.Filesystem = mockFs args.Stderr = &bytes.Buffer{} buf := &bytes.Buffer{} err := zipTo(args, buf) if (err != nil) != (test.err != nil) { t.Fatalf("want error %v, got %v", test.err, err) } else if test.err != nil { if os.IsNotExist(test.err) { if !os.IsNotExist(err) { t.Fatalf("want error %v, got %v", test.err, err) } } else if _, wantRelativeRootErr := test.err.(IncorrectRelativeRootError); wantRelativeRootErr { if _, gotRelativeRootErr := err.(IncorrectRelativeRootError); !gotRelativeRootErr { t.Fatalf("want error %v, got %v", test.err, err) } } else if _, wantConflictingFileError := test.err.(ConflictingFileError); wantConflictingFileError { if _, gotConflictingFileError := err.(ConflictingFileError); !gotConflictingFileError { t.Fatalf("want error %v, got %v", test.err, err) } } else { t.Fatalf("want error %v, got %v", test.err, err) } return } br := bytes.NewReader(buf.Bytes()) zr, err := zip.NewReader(br, int64(br.Len())) if err != nil { t.Fatal(err) } var files []zip.FileHeader for _, f := range zr.File { r, err := f.Open() if err != nil { t.Fatalf("error when opening %s: %s", f.Name, err) } crc := crc32.NewIEEE() len, err := io.Copy(crc, r) r.Close() if err != nil { t.Fatalf("error when reading %s: %s", f.Name, err) } if uint64(len) != f.UncompressedSize64 { t.Errorf("incorrect length for %s, want %d got %d", f.Name, f.UncompressedSize64, len) } if crc.Sum32() != f.CRC32 { t.Errorf("incorrect crc for %s, want %x got %x", f.Name, f.CRC32, crc) } files = append(files, f.FileHeader) } if len(files) != len(test.files) { t.Fatalf("want %d files, got %d", len(test.files), len(files)) } for i := range files { want := test.files[i] got := files[i] if want.Name != got.Name { t.Errorf("incorrect file %d want %q got %q", i, want.Name, got.Name) continue } if want.UncompressedSize64 != got.UncompressedSize64 { t.Errorf("incorrect file %s length want %v got %v", want.Name, want.UncompressedSize64, got.UncompressedSize64) } if want.ExternalAttrs != got.ExternalAttrs { t.Errorf("incorrect file %s attrs want %x got %x", want.Name, want.ExternalAttrs, got.ExternalAttrs) } if want.CRC32 != got.CRC32 { t.Errorf("incorrect file %s crc want %v got %v", want.Name, want.CRC32, got.CRC32) } if want.Method != got.Method { t.Errorf("incorrect file %s method want %v got %v", want.Name, want.Method, got.Method) } } }) } } func TestSrcJar(t *testing.T) { mockFs := pathtools.MockFs(map[string][]byte{ "wrong_package.java": []byte("package foo;"), "foo/correct_package.java": []byte("package foo;"), "src/no_package.java": nil, "src2/parse_error.java": []byte("error"), }) want := []string{ "foo/", "foo/wrong_package.java", "foo/correct_package.java", "no_package.java", "src2/", "src2/parse_error.java", } args := ZipArgs{} args.FileArgs = NewFileArgsBuilder().File("**/*.java").FileArgs() args.SrcJar = true args.AddDirectoryEntriesToZip = true args.Filesystem = mockFs args.Stderr = &bytes.Buffer{} buf := &bytes.Buffer{} err := zipTo(args, buf) if err != nil { t.Fatalf("got error %v", err) } br := bytes.NewReader(buf.Bytes()) zr, err := zip.NewReader(br, int64(br.Len())) if err != nil { t.Fatal(err) } var got []string for _, f := range zr.File { r, err := f.Open() if err != nil { t.Fatalf("error when opening %s: %s", f.Name, err) } crc := crc32.NewIEEE() len, err := io.Copy(crc, r) r.Close() if err != nil { t.Fatalf("error when reading %s: %s", f.Name, err) } if uint64(len) != f.UncompressedSize64 { t.Errorf("incorrect length for %s, want %d got %d", f.Name, f.UncompressedSize64, len) } if crc.Sum32() != f.CRC32 { t.Errorf("incorrect crc for %s, want %x got %x", f.Name, f.CRC32, crc) } got = append(got, f.Name) } if !reflect.DeepEqual(want, got) { t.Errorf("want files %q, got %q", want, got) } }