package conn import ( "bufio" "encoding/hex" "flag" "fmt" "io" "log" "os" "path/filepath" "strconv" "strings" "sync" "testing" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "github.com/tendermint/tendermint/crypto/ed25519" cmn "github.com/tendermint/tendermint/libs/common" ) type kvstoreConn struct { *io.PipeReader *io.PipeWriter } func (drw kvstoreConn) Close() (err error) { err2 := drw.PipeWriter.CloseWithError(io.EOF) err1 := drw.PipeReader.Close() if err2 != nil { return err } return err1 } // Each returned ReadWriteCloser is akin to a net.Connection func makeKVStoreConnPair() (fooConn, barConn kvstoreConn) { barReader, fooWriter := io.Pipe() fooReader, barWriter := io.Pipe() return kvstoreConn{fooReader, fooWriter}, kvstoreConn{barReader, barWriter} } func makeSecretConnPair(tb testing.TB) (fooSecConn, barSecConn *SecretConnection) { var fooConn, barConn = makeKVStoreConnPair() var fooPrvKey = ed25519.GenPrivKey() var fooPubKey = fooPrvKey.PubKey() var barPrvKey = ed25519.GenPrivKey() var barPubKey = barPrvKey.PubKey() // Make connections from both sides in parallel. var trs, ok = cmn.Parallel( func(_ int) (val interface{}, err error, abort bool) { fooSecConn, err = MakeSecretConnection(fooConn, fooPrvKey) if err != nil { tb.Errorf("Failed to establish SecretConnection for foo: %v", err) return nil, err, true } remotePubBytes := fooSecConn.RemotePubKey() if !remotePubBytes.Equals(barPubKey) { err = fmt.Errorf("Unexpected fooSecConn.RemotePubKey. Expected %v, got %v", barPubKey, fooSecConn.RemotePubKey()) tb.Error(err) return nil, err, false } return nil, nil, false }, func(_ int) (val interface{}, err error, abort bool) { barSecConn, err = MakeSecretConnection(barConn, barPrvKey) if barSecConn == nil { tb.Errorf("Failed to establish SecretConnection for bar: %v", err) return nil, err, true } remotePubBytes := barSecConn.RemotePubKey() if !remotePubBytes.Equals(fooPubKey) { err = fmt.Errorf("Unexpected barSecConn.RemotePubKey. Expected %v, got %v", fooPubKey, barSecConn.RemotePubKey()) tb.Error(err) return nil, nil, false } return nil, nil, false }, ) require.Nil(tb, trs.FirstError()) require.True(tb, ok, "Unexpected task abortion") return fooSecConn, barSecConn } func TestSecretConnectionHandshake(t *testing.T) { fooSecConn, barSecConn := makeSecretConnPair(t) if err := fooSecConn.Close(); err != nil { t.Error(err) } if err := barSecConn.Close(); err != nil { t.Error(err) } } // Test that shareEphPubKey rejects lower order public keys based on an // (incomplete) blacklist. func TestShareLowOrderPubkey(t *testing.T) { var fooConn, barConn = makeKVStoreConnPair() defer fooConn.Close() defer barConn.Close() locEphPub, _ := genEphKeys() // all blacklisted low order points: for _, remLowOrderPubKey := range blacklist { remLowOrderPubKey := remLowOrderPubKey _, _ = cmn.Parallel( func(_ int) (val interface{}, err error, abort bool) { _, err = shareEphPubKey(fooConn, locEphPub) require.Error(t, err) require.Equal(t, err, ErrSmallOrderRemotePubKey) return nil, nil, false }, func(_ int) (val interface{}, err error, abort bool) { readRemKey, err := shareEphPubKey(barConn, &remLowOrderPubKey) require.NoError(t, err) require.Equal(t, locEphPub, readRemKey) return nil, nil, false }) } } // Test that additionally that the Diffie-Hellman shared secret is non-zero. // The shared secret would be zero for lower order pub-keys (but tested against the blacklist only). func TestComputeDHFailsOnLowOrder(t *testing.T) { _, locPrivKey := genEphKeys() for _, remLowOrderPubKey := range blacklist { remLowOrderPubKey := remLowOrderPubKey shared, err := computeDHSecret(&remLowOrderPubKey, locPrivKey) assert.Error(t, err) assert.Equal(t, err, ErrSharedSecretIsZero) assert.Empty(t, shared) } } func TestConcurrentWrite(t *testing.T) { fooSecConn, barSecConn := makeSecretConnPair(t) fooWriteText := cmn.RandStr(dataMaxSize) // write from two routines. // should be safe from race according to net.Conn: // https://golang.org/pkg/net/#Conn n := 100 wg := new(sync.WaitGroup) wg.Add(3) go writeLots(t, wg, fooSecConn, fooWriteText, n) go writeLots(t, wg, fooSecConn, fooWriteText, n) // Consume reads from bar's reader readLots(t, wg, barSecConn, n*2) wg.Wait() if err := fooSecConn.Close(); err != nil { t.Error(err) } } func TestConcurrentRead(t *testing.T) { fooSecConn, barSecConn := makeSecretConnPair(t) fooWriteText := cmn.RandStr(dataMaxSize) n := 100 // read from two routines. // should be safe from race according to net.Conn: // https://golang.org/pkg/net/#Conn wg := new(sync.WaitGroup) wg.Add(3) go readLots(t, wg, fooSecConn, n/2) go readLots(t, wg, fooSecConn, n/2) // write to bar writeLots(t, wg, barSecConn, fooWriteText, n) wg.Wait() if err := fooSecConn.Close(); err != nil { t.Error(err) } } func writeLots(t *testing.T, wg *sync.WaitGroup, conn io.Writer, txt string, n int) { defer wg.Done() for i := 0; i < n; i++ { _, err := conn.Write([]byte(txt)) if err != nil { t.Errorf("Failed to write to fooSecConn: %v", err) return } } } func readLots(t *testing.T, wg *sync.WaitGroup, conn io.Reader, n int) { readBuffer := make([]byte, dataMaxSize) for i := 0; i < n; i++ { _, err := conn.Read(readBuffer) assert.NoError(t, err) } wg.Done() } func TestSecretConnectionReadWrite(t *testing.T) { fooConn, barConn := makeKVStoreConnPair() fooWrites, barWrites := []string{}, []string{} fooReads, barReads := []string{}, []string{} // Pre-generate the things to write (for foo & bar) for i := 0; i < 100; i++ { fooWrites = append(fooWrites, cmn.RandStr((cmn.RandInt()%(dataMaxSize*5))+1)) barWrites = append(barWrites, cmn.RandStr((cmn.RandInt()%(dataMaxSize*5))+1)) } // A helper that will run with (fooConn, fooWrites, fooReads) and vice versa genNodeRunner := func(id string, nodeConn kvstoreConn, nodeWrites []string, nodeReads *[]string) cmn.Task { return func(_ int) (interface{}, error, bool) { // Initiate cryptographic private key and secret connection trhough nodeConn. nodePrvKey := ed25519.GenPrivKey() nodeSecretConn, err := MakeSecretConnection(nodeConn, nodePrvKey) if err != nil { t.Errorf("Failed to establish SecretConnection for node: %v", err) return nil, err, true } // In parallel, handle some reads and writes. var trs, ok = cmn.Parallel( func(_ int) (interface{}, error, bool) { // Node writes: for _, nodeWrite := range nodeWrites { n, err := nodeSecretConn.Write([]byte(nodeWrite)) if err != nil { t.Errorf("Failed to write to nodeSecretConn: %v", err) return nil, err, true } if n != len(nodeWrite) { err = fmt.Errorf("Failed to write all bytes. Expected %v, wrote %v", len(nodeWrite), n) t.Error(err) return nil, err, true } } if err := nodeConn.PipeWriter.Close(); err != nil { t.Error(err) return nil, err, true } return nil, nil, false }, func(_ int) (interface{}, error, bool) { // Node reads: readBuffer := make([]byte, dataMaxSize) for { n, err := nodeSecretConn.Read(readBuffer) if err == io.EOF { if err := nodeConn.PipeReader.Close(); err != nil { t.Error(err) return nil, err, true } return nil, nil, false } else if err != nil { t.Errorf("Failed to read from nodeSecretConn: %v", err) return nil, err, true } *nodeReads = append(*nodeReads, string(readBuffer[:n])) } }, ) assert.True(t, ok, "Unexpected task abortion") // If error: if trs.FirstError() != nil { return nil, trs.FirstError(), true } // Otherwise: return nil, nil, false } } // Run foo & bar in parallel var trs, ok = cmn.Parallel( genNodeRunner("foo", fooConn, fooWrites, &fooReads), genNodeRunner("bar", barConn, barWrites, &barReads), ) require.Nil(t, trs.FirstError()) require.True(t, ok, "unexpected task abortion") // A helper to ensure that the writes and reads match. // Additionally, small writes (<= dataMaxSize) must be atomically read. compareWritesReads := func(writes []string, reads []string) { for { // Pop next write & corresponding reads var read, write string = "", writes[0] var readCount = 0 for _, readChunk := range reads { read += readChunk readCount++ if len(write) <= len(read) { break } if len(write) <= dataMaxSize { break // atomicity of small writes } } // Compare if write != read { t.Errorf("Expected to read %X, got %X", write, read) } // Iterate writes = writes[1:] reads = reads[readCount:] if len(writes) == 0 { break } } } compareWritesReads(fooWrites, barReads) compareWritesReads(barWrites, fooReads) } // Run go test -update from within this module // to update the golden test vector file var update = flag.Bool("update", false, "update .golden files") func TestDeriveSecretsAndChallengeGolden(t *testing.T) { goldenFilepath := filepath.Join("testdata", t.Name()+".golden") if *update { t.Logf("Updating golden test vector file %s", goldenFilepath) data := createGoldenTestVectors(t) cmn.WriteFile(goldenFilepath, []byte(data), 0644) } f, err := os.Open(goldenFilepath) if err != nil { log.Fatal(err) } defer f.Close() scanner := bufio.NewScanner(f) for scanner.Scan() { line := scanner.Text() params := strings.Split(line, ",") randSecretVector, err := hex.DecodeString(params[0]) require.Nil(t, err) randSecret := new([32]byte) copy((*randSecret)[:], randSecretVector) locIsLeast, err := strconv.ParseBool(params[1]) require.Nil(t, err) expectedRecvSecret, err := hex.DecodeString(params[2]) require.Nil(t, err) expectedSendSecret, err := hex.DecodeString(params[3]) require.Nil(t, err) expectedChallenge, err := hex.DecodeString(params[4]) require.Nil(t, err) recvSecret, sendSecret, challenge := deriveSecretAndChallenge(randSecret, locIsLeast) require.Equal(t, expectedRecvSecret, (*recvSecret)[:], "Recv Secrets aren't equal") require.Equal(t, expectedSendSecret, (*sendSecret)[:], "Send Secrets aren't equal") require.Equal(t, expectedChallenge, (*challenge)[:], "challenges aren't equal") } } // Creates the data for a test vector file. // The file format is: // Hex(diffie_hellman_secret), loc_is_least, Hex(recvSecret), Hex(sendSecret), Hex(challenge) func createGoldenTestVectors(t *testing.T) string { data := "" for i := 0; i < 32; i++ { randSecretVector := cmn.RandBytes(32) randSecret := new([32]byte) copy((*randSecret)[:], randSecretVector) data += hex.EncodeToString((*randSecret)[:]) + "," locIsLeast := cmn.RandBool() data += strconv.FormatBool(locIsLeast) + "," recvSecret, sendSecret, challenge := deriveSecretAndChallenge(randSecret, locIsLeast) data += hex.EncodeToString((*recvSecret)[:]) + "," data += hex.EncodeToString((*sendSecret)[:]) + "," data += hex.EncodeToString((*challenge)[:]) + "\n" } return data } func BenchmarkWriteSecretConnection(b *testing.B) { b.StopTimer() b.ReportAllocs() fooSecConn, barSecConn := makeSecretConnPair(b) randomMsgSizes := []int{ dataMaxSize / 10, dataMaxSize / 3, dataMaxSize / 2, dataMaxSize, dataMaxSize * 3 / 2, dataMaxSize * 2, dataMaxSize * 7 / 2, } fooWriteBytes := make([][]byte, 0, len(randomMsgSizes)) for _, size := range randomMsgSizes { fooWriteBytes = append(fooWriteBytes, cmn.RandBytes(size)) } // Consume reads from bar's reader go func() { readBuffer := make([]byte, dataMaxSize) for { _, err := barSecConn.Read(readBuffer) if err == io.EOF { return } else if err != nil { b.Errorf("Failed to read from barSecConn: %v", err) return } } }() b.StartTimer() for i := 0; i < b.N; i++ { idx := cmn.RandIntn(len(fooWriteBytes)) _, err := fooSecConn.Write(fooWriteBytes[idx]) if err != nil { b.Errorf("Failed to write to fooSecConn: %v", err) return } } b.StopTimer() if err := fooSecConn.Close(); err != nil { b.Error(err) } //barSecConn.Close() race condition } func BenchmarkReadSecretConnection(b *testing.B) { b.StopTimer() b.ReportAllocs() fooSecConn, barSecConn := makeSecretConnPair(b) randomMsgSizes := []int{ dataMaxSize / 10, dataMaxSize / 3, dataMaxSize / 2, dataMaxSize, dataMaxSize * 3 / 2, dataMaxSize * 2, dataMaxSize * 7 / 2, } fooWriteBytes := make([][]byte, 0, len(randomMsgSizes)) for _, size := range randomMsgSizes { fooWriteBytes = append(fooWriteBytes, cmn.RandBytes(size)) } go func() { for i := 0; i < b.N; i++ { idx := cmn.RandIntn(len(fooWriteBytes)) _, err := fooSecConn.Write(fooWriteBytes[idx]) if err != nil { b.Errorf("Failed to write to fooSecConn: %v, %v,%v", err, i, b.N) return } } }() b.StartTimer() for i := 0; i < b.N; i++ { readBuffer := make([]byte, dataMaxSize) _, err := barSecConn.Read(readBuffer) if err == io.EOF { return } else if err != nil { b.Fatalf("Failed to read from barSecConn: %v", err) } } b.StopTimer() }