// 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 main import ( "bytes" "fmt" "os" "strconv" "strings" "testing" "android/soong/jar" "android/soong/third_party/zip" ) type testZipEntry struct { name string mode os.FileMode data []byte } var ( A = testZipEntry{"A", 0755, []byte("foo")} a = testZipEntry{"a", 0755, []byte("foo")} a2 = testZipEntry{"a", 0755, []byte("FOO2")} a3 = testZipEntry{"a", 0755, []byte("Foo3")} bDir = testZipEntry{"b/", os.ModeDir | 0755, nil} bbDir = testZipEntry{"b/b/", os.ModeDir | 0755, nil} bbb = testZipEntry{"b/b/b", 0755, nil} ba = testZipEntry{"b/a", 0755, []byte("foob")} bc = testZipEntry{"b/c", 0755, []byte("bar")} bd = testZipEntry{"b/d", 0700, []byte("baz")} be = testZipEntry{"b/e", 0700, []byte("")} metainfDir = testZipEntry{jar.MetaDir, os.ModeDir | 0755, nil} manifestFile = testZipEntry{jar.ManifestFile, 0755, []byte("manifest")} manifestFile2 = testZipEntry{jar.ManifestFile, 0755, []byte("manifest2")} moduleInfoFile = testZipEntry{jar.ModuleInfoClass, 0755, []byte("module-info")} ) type testInputZip struct { name string entries []testZipEntry reader *zip.Reader } func (tiz *testInputZip) Name() string { return tiz.name } func (tiz *testInputZip) Open() error { if tiz.reader == nil { tiz.reader = testZipEntriesToZipReader(tiz.entries) } return nil } func (tiz *testInputZip) Close() error { tiz.reader = nil return nil } func (tiz *testInputZip) Entries() []*zip.File { if tiz.reader == nil { panic(fmt.Errorf("%s: should be open to get entries", tiz.Name())) } return tiz.reader.File } func (tiz *testInputZip) IsOpen() bool { return tiz.reader != nil } func TestMergeZips(t *testing.T) { testCases := []struct { name string in [][]testZipEntry stripFiles []string stripDirs []string jar bool sort bool ignoreDuplicates bool stripDirEntries bool zipsToNotStrip map[string]bool out []testZipEntry err string }{ { name: "duplicates error", in: [][]testZipEntry{ {a}, {a2}, {a3}, }, out: []testZipEntry{a}, err: "duplicate", }, { name: "duplicates take first", in: [][]testZipEntry{ {a}, {a2}, {a3}, }, out: []testZipEntry{a}, ignoreDuplicates: true, }, { name: "duplicates identical", in: [][]testZipEntry{ {a}, {a}, }, out: []testZipEntry{a}, }, { name: "sort", in: [][]testZipEntry{ {be, bc, bDir, bbDir, bbb, A, metainfDir, manifestFile}, }, out: []testZipEntry{A, metainfDir, manifestFile, bDir, bbDir, bbb, bc, be}, sort: true, }, { name: "jar sort", in: [][]testZipEntry{ {be, bc, bDir, A, metainfDir, manifestFile}, }, out: []testZipEntry{metainfDir, manifestFile, A, bDir, bc, be}, jar: true, }, { name: "jar merge", in: [][]testZipEntry{ {metainfDir, manifestFile, bDir, be}, {metainfDir, manifestFile2, bDir, bc}, {metainfDir, manifestFile2, A}, }, out: []testZipEntry{metainfDir, manifestFile, A, bDir, bc, be}, jar: true, }, { name: "merge", in: [][]testZipEntry{ {bDir, be}, {bDir, bc}, {A}, }, out: []testZipEntry{bDir, be, bc, A}, }, { name: "strip dir entries", in: [][]testZipEntry{ {a, bDir, bbDir, bbb, bc, bd, be}, }, out: []testZipEntry{a, bbb, bc, bd, be}, stripDirEntries: true, }, { name: "strip files", in: [][]testZipEntry{ {a, bDir, bbDir, bbb, bc, bd, be}, }, out: []testZipEntry{a, bDir, bbDir, bbb, bc}, stripFiles: []string{"b/d", "b/e"}, }, { // merge_zips used to treat -stripFile a as stripping any file named a, it now only strips a in the // root of the zip. name: "strip file name", in: [][]testZipEntry{ {a, bDir, ba}, }, out: []testZipEntry{bDir, ba}, stripFiles: []string{"a"}, }, { name: "strip files glob", in: [][]testZipEntry{ {a, bDir, ba}, }, out: []testZipEntry{bDir}, stripFiles: []string{"**/a"}, }, { name: "strip dirs", in: [][]testZipEntry{ {a, bDir, bbDir, bbb, bc, bd, be}, }, out: []testZipEntry{a}, stripDirs: []string{"b"}, }, { name: "strip dirs glob", in: [][]testZipEntry{ {a, bDir, bbDir, bbb, bc, bd, be}, }, out: []testZipEntry{a, bDir, bc, bd, be}, stripDirs: []string{"b/*"}, }, { name: "zips to not strip", in: [][]testZipEntry{ {a, bDir, bc}, {bDir, bd}, {bDir, be}, }, out: []testZipEntry{a, bDir, bd}, stripDirs: []string{"b"}, zipsToNotStrip: map[string]bool{ "in1": true, }, }, } for _, test := range testCases { t.Run(test.name, func(t *testing.T) { inputZips := make([]InputZip, len(test.in)) for i, in := range test.in { inputZips[i] = &testInputZip{name: "in" + strconv.Itoa(i), entries: in} } want := testZipEntriesToBuf(test.out) out := &bytes.Buffer{} writer := zip.NewWriter(out) err := mergeZips(inputZips, writer, "", "", test.sort, test.jar, false, test.stripDirEntries, test.ignoreDuplicates, test.stripFiles, test.stripDirs, test.zipsToNotStrip) closeErr := writer.Close() if closeErr != nil { t.Fatal(err) } if test.err != "" { if err == nil { t.Fatal("missing err, expected: ", test.err) } else if !strings.Contains(strings.ToLower(err.Error()), strings.ToLower(test.err)) { t.Fatal("incorrect err, want:", test.err, "got:", err) } return } if !bytes.Equal(want, out.Bytes()) { t.Error("incorrect zip output") t.Errorf("want:\n%s", dumpZip(want)) t.Errorf("got:\n%s", dumpZip(out.Bytes())) } }) } } func testZipEntriesToBuf(entries []testZipEntry) []byte { b := &bytes.Buffer{} zw := zip.NewWriter(b) for _, e := range entries { fh := zip.FileHeader{ Name: e.name, } fh.SetMode(e.mode) w, err := zw.CreateHeader(&fh) if err != nil { panic(err) } _, err = w.Write(e.data) if err != nil { panic(err) } } err := zw.Close() if err != nil { panic(err) } return b.Bytes() } func testZipEntriesToZipReader(entries []testZipEntry) *zip.Reader { b := testZipEntriesToBuf(entries) r := bytes.NewReader(b) zr, err := zip.NewReader(r, int64(len(b))) if err != nil { panic(err) } return zr } func dumpZip(buf []byte) string { r := bytes.NewReader(buf) zr, err := zip.NewReader(r, int64(len(buf))) if err != nil { panic(err) } var ret string for _, f := range zr.File { ret += fmt.Sprintf("%v: %v %v %08x\n", f.Name, f.Mode(), f.UncompressedSize64, f.CRC32) } return ret } type DummyInpuZip struct { isOpen bool } func (diz *DummyInpuZip) Name() string { return "dummy" } func (diz *DummyInpuZip) Open() error { diz.isOpen = true return nil } func (diz *DummyInpuZip) Close() error { diz.isOpen = false return nil } func (DummyInpuZip) Entries() []*zip.File { panic("implement me") } func (diz *DummyInpuZip) IsOpen() bool { return diz.isOpen } func TestInputZipsManager(t *testing.T) { const nInputZips = 20 const nMaxOpenZips = 10 izm := NewInputZipsManager(20, 10) managedZips := make([]InputZip, nInputZips) for i := 0; i < nInputZips; i++ { managedZips[i] = izm.Manage(&DummyInpuZip{}) } t.Run("InputZipsManager", func(t *testing.T) { for i, iz := range managedZips { if err := iz.Open(); err != nil { t.Fatalf("Step %d: open failed: %s", i, err) return } if izm.nOpenZips > nMaxOpenZips { t.Errorf("Step %d: should be <=%d open zips", i, nMaxOpenZips) } } if !managedZips[nInputZips-1].IsOpen() { t.Error("The last input should stay open") } for _, iz := range managedZips { iz.Close() } if izm.nOpenZips > 0 { t.Error("Some input zips are still open") } }) }