/* Copyright (c) Edgeless Systems GmbH SPDX-License-Identifier: AGPL-3.0-only */ package installer import ( "archive/tar" "bufio" "bytes" "compress/gzip" "context" "io" "io/fs" "net" "net/http" "net/http/httptest" "path" "sync" "testing" "time" "github.com/edgelesssys/constellation/v2/internal/versions/components" "github.com/spf13/afero" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "go.uber.org/multierr" "google.golang.org/grpc/test/bufconn" testclock "k8s.io/utils/clock/testing" ) func TestInstall(t *testing.T) { serverURL := "http://server/path" testCases := map[string]struct { server httpBufconnServer component components.Component hash string destination string extract bool wantErr bool wantFiles map[string][]byte }{ "download works": { server: newHTTPBufconnServerWithBody([]byte("file-contents")), component: components.Component{ URL: serverURL, Hash: "sha256:f03779b36bece74893fd6533a67549675e21573eb0e288d87158738f9c24594e", InstallPath: "/destination", }, wantFiles: map[string][]byte{"/destination": []byte("file-contents")}, }, "download with extract works": { server: newHTTPBufconnServerWithBody(createTarGz([]byte("file-contents"), "/destination")), component: components.Component{ URL: serverURL, Hash: "sha256:a52a1664ca0a6ec9790384e3d058852ab8b3a8f389a9113d150fdc6ab308d949", InstallPath: "/prefix", Extract: true, }, wantFiles: map[string][]byte{"/prefix/destination": []byte("file-contents")}, }, "hash validation fails": { server: newHTTPBufconnServerWithBody([]byte("file-contents")), component: components.Component{ URL: serverURL, Hash: "sha256:abc", InstallPath: "/destination", }, wantErr: true, }, "download fails": { server: newHTTPBufconnServer(func(w http.ResponseWriter, r *http.Request) { w.WriteHeader(500) }), component: components.Component{ URL: serverURL, Hash: "sha256:abc", InstallPath: "/destination", }, wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) defer tc.server.Close() hClient := http.Client{ Transport: &http.Transport{ DialContext: tc.server.DialContext, Dial: tc.server.Dial, DialTLSContext: tc.server.DialContext, DialTLS: tc.server.Dial, }, } // This test was written before retriability was added to Install. It makes sense to test Install as if it wouldn't retry requests. inst := OsInstaller{ fs: &afero.Afero{Fs: afero.NewMemMapFs()}, hClient: &hClient, clock: testclock.NewFakeClock(time.Time{}), retriable: func(err error) bool { return false }, } err := inst.Install(context.Background(), tc.component) if tc.wantErr { assert.Error(err) return } require.NoError(err) for path, wantContents := range tc.wantFiles { contents, err := inst.fs.ReadFile(path) assert.NoError(err) assert.Equal(wantContents, contents) } }) } } func TestExtractArchive(t *testing.T) { tarGzTestFile := createTarGz([]byte("file-contents"), "/destination") tarGzTestWithFolder := createTarGzWithFolder([]byte("file-contents"), "/folder/destination", nil) testCases := map[string]struct { source string destination string contents []byte readonly bool wantErr bool wantFiles map[string][]byte }{ "extract works": { source: "in.tar.gz", destination: "/prefix", contents: tarGzTestFile, wantFiles: map[string][]byte{ "/prefix/destination": []byte("file-contents"), }, }, "extract with folder works": { source: "in.tar.gz", destination: "/prefix", contents: tarGzTestWithFolder, wantFiles: map[string][]byte{ "/prefix/folder/destination": []byte("file-contents"), }, }, "source missing": { source: "in.tar.gz", destination: "/prefix", wantErr: true, }, "non-gzip file contents": { source: "in.tar.gz", contents: []byte("invalid bytes"), destination: "/prefix", wantErr: true, }, "non-tar file contents": { source: "in.tar.gz", contents: createGz([]byte("file-contents")), destination: "/prefix", wantErr: true, }, "mkdir prefix dir fails on RO fs": { source: "in.tar.gz", contents: tarGzTestFile, destination: "/prefix", readonly: true, wantErr: true, }, "mkdir tar dir fails on RO fs": { source: "in.tar.gz", contents: tarGzTestWithFolder, destination: "/", readonly: true, wantErr: true, }, "writing tar file fails on RO fs": { source: "in.tar.gz", contents: tarGzTestFile, destination: "/", readonly: true, wantErr: true, }, "symlink can be detected (but is unsupported on memmapfs)": { source: "in.tar.gz", contents: createTarGzWithSymlink("source", "dest"), destination: "/prefix", wantErr: true, }, "unsupported tar header type is detected": { source: "in.tar.gz", contents: createTarGzWithFifo("/destination"), destination: "/prefix", wantErr: true, }, "path traversal is detected": { source: "in.tar.gz", contents: createTarGz([]byte{}, "../destination"), wantErr: true, }, "path traversal in symlink is detected": { source: "in.tar.gz", contents: createTarGzWithSymlink("/source", "../destination"), wantErr: true, }, "empty file name is detected": { source: "in.tar.gz", contents: createTarGz([]byte{}, ""), wantErr: true, }, "empty folder name is detected": { source: "in.tar.gz", contents: createTarGzWithFolder([]byte{}, "source", stringPtr("")), wantErr: true, }, "empty symlink source is detected": { source: "in.tar.gz", contents: createTarGzWithSymlink("", "/target"), wantErr: true, }, "empty symlink target is detected": { source: "in.tar.gz", contents: createTarGzWithSymlink("/source", ""), wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) afs := afero.NewMemMapFs() if len(tc.source) > 0 && len(tc.contents) > 0 { require.NoError(afero.WriteFile(afs, tc.source, tc.contents, fs.ModePerm)) } if tc.readonly { afs = afero.NewReadOnlyFs(afs) } inst := OsInstaller{ fs: &afero.Afero{Fs: afs}, } err := inst.extractArchive(tc.source, tc.destination, fs.ModePerm) if tc.wantErr { assert.Error(err) return } require.NoError(err) for path, wantContents := range tc.wantFiles { contents, err := inst.fs.ReadFile(path) assert.NoError(err) assert.Equal(wantContents, contents) } }) } } func TestRetryDownloadToTempDir(t *testing.T) { testCases := map[string]struct { responses []int cancelCtx bool wantErr bool wantFile []byte }{ "Succeed on third try": { responses: []int{500, 500, 200}, wantFile: []byte("file-content"), }, "Cancel after second try": { responses: []int{500, 500}, cancelCtx: true, wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) // control the server's responses through stateCh stateCh := make(chan int) server := newHTTPBufconnServerWithState(stateCh, tc.wantFile) defer server.Close() hClient := http.Client{ Transport: &http.Transport{ DialContext: server.DialContext, Dial: server.Dial, DialTLSContext: server.DialContext, DialTLS: server.Dial, }, } afs := afero.NewMemMapFs() // control download retries through FakeClock clock clock := testclock.NewFakeClock(time.Now()) inst := OsInstaller{ fs: &afero.Afero{Fs: afs}, hClient: &hClient, clock: clock, retriable: func(error) bool { return true }, } // abort retryDownloadToTempDir in some test cases by using the context ctx, cancel := context.WithCancel(context.Background()) defer cancel() wg := sync.WaitGroup{} var downloadErr error var path string wg.Add(1) go func() { defer wg.Done() path, downloadErr = inst.retryDownloadToTempDir(ctx, "http://server/path") }() // control the server's responses through stateCh. for _, resp := range tc.responses { stateCh <- resp clock.Step(downloadInterval) } if tc.cancelCtx { cancel() } wg.Wait() if tc.wantErr { assert.Error(downloadErr) return } require.NoError(downloadErr) content, err := inst.fs.ReadFile(path) assert.NoError(err) assert.Equal(tc.wantFile, content) }) } } func TestDownloadToTempDir(t *testing.T) { testCases := map[string]struct { server httpBufconnServer readonly bool wantErr bool wantFile []byte }{ "download works": { server: newHTTPBufconnServerWithBody([]byte("file-contents")), wantFile: []byte("file-contents"), }, "download fails": { server: newHTTPBufconnServer(func(w http.ResponseWriter, r *http.Request) { w.WriteHeader(500) }), wantErr: true, }, "creating temp file fails on RO fs": { server: newHTTPBufconnServerWithBody([]byte("file-contents")), readonly: true, wantErr: true, }, "content length mismatch": { server: newHTTPBufconnServer(func(writer http.ResponseWriter, request *http.Request) { writer.Header().Set("Content-Length", "1337") writer.WriteHeader(200) }), wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) defer tc.server.Close() hClient := http.Client{ Transport: &http.Transport{ DialContext: tc.server.DialContext, Dial: tc.server.Dial, DialTLSContext: tc.server.DialContext, DialTLS: tc.server.Dial, }, } afs := afero.NewMemMapFs() if tc.readonly { afs = afero.NewReadOnlyFs(afs) } inst := OsInstaller{ fs: &afero.Afero{Fs: afs}, hClient: &hClient, } path, err := inst.downloadToTempDir(context.Background(), "http://server/path") if tc.wantErr { assert.Error(err) return } require.NoError(err) contents, err := inst.fs.ReadFile(path) assert.NoError(err) assert.Equal(tc.wantFile, contents) }) } } func TestCopy(t *testing.T) { contents := []byte("file-contents") existingFile := "/source" testCases := map[string]struct { oldname string newname string perm fs.FileMode readonly bool wantErr bool }{ "copy works": { oldname: existingFile, newname: "/destination", perm: fs.ModePerm, }, "oldname does not exist": { oldname: "missing", newname: "/destination", wantErr: true, }, "copy on readonly fs fails": { oldname: existingFile, newname: "/destination", perm: fs.ModePerm, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) afs := afero.NewMemMapFs() require.NoError(afero.WriteFile(afs, existingFile, contents, fs.ModePerm)) if tc.readonly { afs = afero.NewReadOnlyFs(afs) } inst := OsInstaller{fs: &afero.Afero{Fs: afs}} err := inst.copy(tc.oldname, tc.newname, tc.perm) if tc.wantErr { assert.Error(err) return } require.NoError(err) oldfile, err := afs.Open(tc.oldname) assert.NoError(err) newfile, err := afs.Open(tc.newname) assert.NoError(err) oldContents, _ := io.ReadAll(oldfile) newContents, _ := io.ReadAll(newfile) assert.Equal(oldContents, newContents) newStat, _ := newfile.Stat() assert.Equal(tc.perm, newStat.Mode()) }) } } func TestVerifyTarPath(t *testing.T) { testCases := map[string]struct { path string wantErr bool }{ "valid relative path": { path: "a/b/c", }, "valid absolute path": { path: "/a/b/c", }, "valid path with dot": { path: "/a/b/.d", }, "valid path with dots": { path: "/a/b/..d", }, "single dot in path is allowed": { path: ".", }, "simple path traversal": { path: "..", wantErr: true, }, "simple path traversal 2": { path: "../", wantErr: true, }, "simple path traversal 3": { path: "/..", wantErr: true, }, "simple path traversal 4": { path: "/../", wantErr: true, }, "complex relative path traversal": { path: "a/b/c/../../../../c/d/e", wantErr: true, }, "complex absolute path traversal": { path: "/a/b/c/../../../../c/d/e", wantErr: true, }, "path traversal at the end": { path: "a/..", wantErr: true, }, "path traversal at the end with trailing /": { path: "a/../", wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) err := verifyTarPath(tc.path) if tc.wantErr { assert.Error(err) return } require.NoError(err) assert.Equal(tc.path, path.Clean(tc.path)) }) } } type httpBufconnServer struct { *httptest.Server *bufconn.Listener } func (s *httpBufconnServer) DialContext(ctx context.Context, network, addr string) (net.Conn, error) { return s.Listener.DialContext(ctx) } func (s *httpBufconnServer) Dial(network, addr string) (net.Conn, error) { return s.Listener.Dial() } func (s *httpBufconnServer) Close() { s.Server.Close() s.Listener.Close() } func newHTTPBufconnServer(handlerFunc http.HandlerFunc) httpBufconnServer { server := httptest.NewUnstartedServer(handlerFunc) listener := bufconn.Listen(1024) server.Listener = listener server.Start() return httpBufconnServer{ Server: server, Listener: listener, } } func newHTTPBufconnServerWithBody(body []byte) httpBufconnServer { return newHTTPBufconnServer(func(writer http.ResponseWriter, request *http.Request) { if _, err := writer.Write(body); err != nil { panic(err) } }) } func newHTTPBufconnServerWithState(state chan int, body []byte) httpBufconnServer { return newHTTPBufconnServer(func(w http.ResponseWriter, r *http.Request) { switch <-state { case 500: w.WriteHeader(500) case 200: if _, err := w.Write(body); err != nil { panic(err) } default: w.WriteHeader(402) } }) } func createTarGz(contents []byte, path string) []byte { tgzWriter := newTarGzWriter() defer func() { _ = tgzWriter.Close() }() if err := tgzWriter.writeHeader(&tar.Header{ Typeflag: tar.TypeReg, Name: path, Size: int64(len(contents)), Mode: int64(fs.ModePerm), }); err != nil { panic(err) } if _, err := tgzWriter.writeTar(contents); err != nil { panic(err) } return tgzWriter.Bytes() } func createTarGzWithFolder(contents []byte, pat string, dirnameOverride *string) []byte { tgzWriter := newTarGzWriter() defer func() { _ = tgzWriter.Close() }() dir := path.Dir(pat) if dirnameOverride != nil { dir = *dirnameOverride } if err := tgzWriter.writeHeader(&tar.Header{ Typeflag: tar.TypeDir, Name: dir, Mode: int64(fs.ModePerm), }); err != nil { panic(err) } if err := tgzWriter.writeHeader(&tar.Header{ Typeflag: tar.TypeReg, Name: pat, Size: int64(len(contents)), Mode: int64(fs.ModePerm), }); err != nil { panic(err) } if _, err := tgzWriter.writeTar(contents); err != nil { panic(err) } return tgzWriter.Bytes() } func createTarGzWithSymlink(oldname, newname string) []byte { tgzWriter := newTarGzWriter() defer func() { _ = tgzWriter.Close() }() if err := tgzWriter.writeHeader(&tar.Header{ Typeflag: tar.TypeSymlink, Name: oldname, Linkname: newname, Mode: int64(fs.ModePerm), }); err != nil { panic(err) } return tgzWriter.Bytes() } func createTarGzWithFifo(name string) []byte { tgzWriter := newTarGzWriter() defer func() { _ = tgzWriter.Close() }() if err := tgzWriter.writeHeader(&tar.Header{ Typeflag: tar.TypeFifo, Name: name, Mode: int64(fs.ModePerm), }); err != nil { panic(err) } return tgzWriter.Bytes() } func createGz(contents []byte) []byte { tgzWriter := newTarGzWriter() defer func() { _ = tgzWriter.Close() }() if _, err := tgzWriter.writeGz(contents); err != nil { panic(err) } return tgzWriter.Bytes() } type tarGzWriter struct { buf *bytes.Buffer bufWriter *bufio.Writer gzWriter *gzip.Writer tarWriter *tar.Writer } func newTarGzWriter() *tarGzWriter { var buf bytes.Buffer bufWriter := bufio.NewWriter(&buf) gzipWriter := gzip.NewWriter(bufWriter) tarWriter := tar.NewWriter(gzipWriter) return &tarGzWriter{ buf: &buf, bufWriter: bufWriter, gzWriter: gzipWriter, tarWriter: tarWriter, } } func (w *tarGzWriter) writeHeader(hdr *tar.Header) error { return w.tarWriter.WriteHeader(hdr) } func (w *tarGzWriter) writeTar(b []byte) (int, error) { return w.tarWriter.Write(b) } func (w *tarGzWriter) writeGz(b []byte) (int, error) { return w.gzWriter.Write(b) } func (w *tarGzWriter) Bytes() []byte { _ = w.tarWriter.Flush() _ = w.gzWriter.Flush() _ = w.gzWriter.Close() // required to ensure clean EOF in gz reader _ = w.bufWriter.Flush() return w.buf.Bytes() } func (w *tarGzWriter) Close() (result error) { if err := w.tarWriter.Close(); err != nil { result = multierr.Append(result, err) } if err := w.gzWriter.Close(); err != nil { result = multierr.Append(result, err) } return result } func stringPtr(s string) *string { return &s }