// Copyright (c) 2012, 2013 Ugorji Nwoke. All rights reserved. // Use of this source code is governed by a BSD-style license found in the LICENSE file. package codec // Test works by using a slice of interfaces. // It can test for encoding/decoding into/from a nil interface{} // or passing the object to encode/decode into. // // There are basically 2 main tests here. // First test internally encodes and decodes things and verifies that // the artifact was as expected. // Second test will use python msgpack to create a bunch of golden files, // read those files, and compare them to what it should be. It then // writes those files back out and compares the byte streams. // // Taken together, the tests are pretty extensive. import ( "bytes" "encoding/gob" "flag" "fmt" "io/ioutil" "math" "net" "net/rpc" "os" "os/exec" "path/filepath" "reflect" "runtime" "strconv" "sync/atomic" "testing" "time" ) type testVerifyArg int const ( testVerifyMapTypeSame testVerifyArg = iota testVerifyMapTypeStrIntf testVerifyMapTypeIntfIntf // testVerifySliceIntf testVerifyForPython ) var ( testInitDebug bool testUseIoEncDec bool testStructToArray bool testWriteNoSymbols bool _ = fmt.Printf skipVerifyVal interface{} = &(struct{}{}) // For Go Time, do not use a descriptive timezone. // It's unnecessary, and makes it harder to do a reflect.DeepEqual. // The Offset already tells what the offset should be, if not on UTC and unknown zone name. timeLoc = time.FixedZone("", -8*60*60) // UTC-08:00 //time.UTC-8 timeToCompare1 = time.Date(2012, 2, 2, 2, 2, 2, 2000, timeLoc) timeToCompare2 = time.Date(1900, 2, 2, 2, 2, 2, 2000, timeLoc) timeToCompare3 = time.Unix(0, 0).UTC() timeToCompare4 = time.Time{}.UTC() table []interface{} // main items we encode tableVerify []interface{} // we verify encoded things against this after decode tableTestNilVerify []interface{} // for nil interface, use this to verify (rules are different) tablePythonVerify []interface{} // for verifying for python, since Python sometimes // will encode a float32 as float64, or large int as uint testRpcInt = new(TestRpcInt) testMsgpackH = &MsgpackHandle{} testBincH = &BincHandle{} testSimpleH = &SimpleHandle{} ) func testInitFlags() { // delete(testDecOpts.ExtFuncs, timeTyp) flag.BoolVar(&testInitDebug, "tg", false, "Test Debug") flag.BoolVar(&testUseIoEncDec, "ti", false, "Use IO Reader/Writer for Marshal/Unmarshal") flag.BoolVar(&testStructToArray, "ts", false, "Set StructToArray option") flag.BoolVar(&testWriteNoSymbols, "tn", false, "Set NoSymbols option") } type AnonInTestStruc struct { AS string AI64 int64 AI16 int16 AUi64 uint64 ASslice []string AI64slice []int64 } type TestStruc struct { S string I64 int64 I16 int16 Ui64 uint64 Ui8 uint8 B bool By byte Sslice []string I64slice []int64 I16slice []int16 Ui64slice []uint64 Ui8slice []uint8 Bslice []bool Byslice []byte Islice []interface{} Iptrslice []*int64 AnonInTestStruc //M map[interface{}]interface{} `json:"-",bson:"-"` Ms map[string]interface{} Msi64 map[string]int64 Nintf interface{} //don't set this, so we can test for nil T time.Time Nmap map[string]bool //don't set this, so we can test for nil Nslice []byte //don't set this, so we can test for nil Nint64 *int64 //don't set this, so we can test for nil Mtsptr map[string]*TestStruc Mts map[string]TestStruc Its []*TestStruc Nteststruc *TestStruc } type TestABC struct { A, B, C string } type TestRpcInt struct { i int } func (r *TestRpcInt) Update(n int, res *int) error { r.i = n; *res = r.i; return nil } func (r *TestRpcInt) Square(ignore int, res *int) error { *res = r.i * r.i; return nil } func (r *TestRpcInt) Mult(n int, res *int) error { *res = r.i * n; return nil } func (r *TestRpcInt) EchoStruct(arg TestABC, res *string) error { *res = fmt.Sprintf("%#v", arg) return nil } func (r *TestRpcInt) Echo123(args []string, res *string) error { *res = fmt.Sprintf("%#v", args) return nil } func testVerifyVal(v interface{}, arg testVerifyArg) (v2 interface{}) { //for python msgpack, // - all positive integers are unsigned 64-bit ints // - all floats are float64 switch iv := v.(type) { case int8: if iv > 0 { v2 = uint64(iv) } else { v2 = int64(iv) } case int16: if iv > 0 { v2 = uint64(iv) } else { v2 = int64(iv) } case int32: if iv > 0 { v2 = uint64(iv) } else { v2 = int64(iv) } case int64: if iv > 0 { v2 = uint64(iv) } else { v2 = int64(iv) } case uint8: v2 = uint64(iv) case uint16: v2 = uint64(iv) case uint32: v2 = uint64(iv) case uint64: v2 = uint64(iv) case float32: v2 = float64(iv) case float64: v2 = float64(iv) case []interface{}: m2 := make([]interface{}, len(iv)) for j, vj := range iv { m2[j] = testVerifyVal(vj, arg) } v2 = m2 case map[string]bool: switch arg { case testVerifyMapTypeSame: m2 := make(map[string]bool) for kj, kv := range iv { m2[kj] = kv } v2 = m2 case testVerifyMapTypeStrIntf, testVerifyForPython: m2 := make(map[string]interface{}) for kj, kv := range iv { m2[kj] = kv } v2 = m2 case testVerifyMapTypeIntfIntf: m2 := make(map[interface{}]interface{}) for kj, kv := range iv { m2[kj] = kv } v2 = m2 } case map[string]interface{}: switch arg { case testVerifyMapTypeSame: m2 := make(map[string]interface{}) for kj, kv := range iv { m2[kj] = testVerifyVal(kv, arg) } v2 = m2 case testVerifyMapTypeStrIntf, testVerifyForPython: m2 := make(map[string]interface{}) for kj, kv := range iv { m2[kj] = testVerifyVal(kv, arg) } v2 = m2 case testVerifyMapTypeIntfIntf: m2 := make(map[interface{}]interface{}) for kj, kv := range iv { m2[kj] = testVerifyVal(kv, arg) } v2 = m2 } case map[interface{}]interface{}: m2 := make(map[interface{}]interface{}) for kj, kv := range iv { m2[testVerifyVal(kj, arg)] = testVerifyVal(kv, arg) } v2 = m2 case time.Time: switch arg { case testVerifyForPython: if iv2 := iv.UnixNano(); iv2 > 0 { v2 = uint64(iv2) } else { v2 = int64(iv2) } default: v2 = v } default: v2 = v } return } func testInit() { gob.Register(new(TestStruc)) if testInitDebug { ts0 := newTestStruc(2, false) fmt.Printf("====> depth: %v, ts: %#v\n", 2, ts0) } testBincH.StructToArray = testStructToArray if testWriteNoSymbols { testBincH.AsSymbols = AsSymbolNone } else { testBincH.AsSymbols = AsSymbolAll } testMsgpackH.StructToArray = testStructToArray testMsgpackH.RawToString = true // testMsgpackH.AddExt(byteSliceTyp, 0, testMsgpackH.BinaryEncodeExt, testMsgpackH.BinaryDecodeExt) // testMsgpackH.AddExt(timeTyp, 1, testMsgpackH.TimeEncodeExt, testMsgpackH.TimeDecodeExt) timeEncExt := func(rv reflect.Value) ([]byte, error) { return encodeTime(rv.Interface().(time.Time)), nil } timeDecExt := func(rv reflect.Value, bs []byte) error { tt, err := decodeTime(bs) if err == nil { rv.Set(reflect.ValueOf(tt)) } return err } // add extensions for msgpack, simple for time.Time, so we can encode/decode same way. testMsgpackH.AddExt(timeTyp, 1, timeEncExt, timeDecExt) testSimpleH.AddExt(timeTyp, 1, timeEncExt, timeDecExt) primitives := []interface{}{ int8(-8), int16(-1616), int32(-32323232), int64(-6464646464646464), uint8(192), uint16(1616), uint32(32323232), uint64(6464646464646464), byte(192), float32(-3232.0), float64(-6464646464.0), float32(3232.0), float64(6464646464.0), false, true, nil, "someday", "", "bytestring", timeToCompare1, timeToCompare2, timeToCompare3, timeToCompare4, } mapsAndStrucs := []interface{}{ map[string]bool{ "true": true, "false": false, }, map[string]interface{}{ "true": "True", "false": false, "uint16(1616)": uint16(1616), }, //add a complex combo map in here. (map has list which has map) //note that after the first thing, everything else should be generic. map[string]interface{}{ "list": []interface{}{ int16(1616), int32(32323232), true, float32(-3232.0), map[string]interface{}{ "TRUE": true, "FALSE": false, }, []interface{}{true, false}, }, "int32": int32(32323232), "bool": true, "LONG STRING": "123456789012345678901234567890123456789012345678901234567890", "SHORT STRING": "1234567890", }, map[interface{}]interface{}{ true: "true", uint8(138): false, "false": uint8(200), }, newTestStruc(0, false), } table = []interface{}{} table = append(table, primitives...) //0-19 are primitives table = append(table, primitives) //20 is a list of primitives table = append(table, mapsAndStrucs...) //21-24 are maps. 25 is a *struct tableVerify = make([]interface{}, len(table)) tableTestNilVerify = make([]interface{}, len(table)) tablePythonVerify = make([]interface{}, len(table)) lp := len(primitives) av := tableVerify for i, v := range table { if i == lp+3 { av[i] = skipVerifyVal continue } //av[i] = testVerifyVal(v, testVerifyMapTypeSame) switch v.(type) { case []interface{}: av[i] = testVerifyVal(v, testVerifyMapTypeSame) case map[string]interface{}: av[i] = testVerifyVal(v, testVerifyMapTypeSame) case map[interface{}]interface{}: av[i] = testVerifyVal(v, testVerifyMapTypeSame) default: av[i] = v } } av = tableTestNilVerify for i, v := range table { if i > lp+3 { av[i] = skipVerifyVal continue } av[i] = testVerifyVal(v, testVerifyMapTypeStrIntf) } av = tablePythonVerify for i, v := range table { if i > lp+3 { av[i] = skipVerifyVal continue } av[i] = testVerifyVal(v, testVerifyForPython) } tablePythonVerify = tablePythonVerify[:24] } func testUnmarshal(v interface{}, data []byte, h Handle) error { if testUseIoEncDec { return NewDecoder(bytes.NewBuffer(data), h).Decode(v) } return NewDecoderBytes(data, h).Decode(v) } func testMarshal(v interface{}, h Handle) (bs []byte, err error) { if testUseIoEncDec { var buf bytes.Buffer err = NewEncoder(&buf, h).Encode(v) bs = buf.Bytes() return } err = NewEncoderBytes(&bs, h).Encode(v) return } func testMarshalErr(v interface{}, h Handle, t *testing.T, name string) (bs []byte, err error) { if bs, err = testMarshal(v, h); err != nil { logT(t, "Error encoding %s: %v, Err: %v", name, v, err) t.FailNow() } return } func testUnmarshalErr(v interface{}, data []byte, h Handle, t *testing.T, name string) (err error) { if err = testUnmarshal(v, data, h); err != nil { logT(t, "Error Decoding into %s: %v, Err: %v", name, v, err) t.FailNow() } return } func newTestStruc(depth int, bench bool) (ts *TestStruc) { var i64a, i64b, i64c, i64d int64 = 64, 6464, 646464, 64646464 ts = &TestStruc{ S: "some string", I64: math.MaxInt64 * 2 / 3, // 64, I16: 16, Ui64: uint64(int64(math.MaxInt64 * 2 / 3)), // 64, //don't use MaxUint64, as bson can't write it Ui8: 160, B: true, By: 5, Sslice: []string{"one", "two", "three"}, I64slice: []int64{1, 2, 3}, I16slice: []int16{4, 5, 6}, Ui64slice: []uint64{137, 138, 139}, Ui8slice: []uint8{210, 211, 212}, Bslice: []bool{true, false, true, false}, Byslice: []byte{13, 14, 15}, Islice: []interface{}{"true", true, "no", false, uint64(288), float64(0.4)}, Ms: map[string]interface{}{ "true": "true", "int64(9)": false, }, Msi64: map[string]int64{ "one": 1, "two": 2, }, T: timeToCompare1, AnonInTestStruc: AnonInTestStruc{ AS: "A-String", AI64: 64, AI16: 16, AUi64: 64, ASslice: []string{"Aone", "Atwo", "Athree"}, AI64slice: []int64{1, 2, 3}, }, } //For benchmarks, some things will not work. if !bench { //json and bson require string keys in maps //ts.M = map[interface{}]interface{}{ // true: "true", // int8(9): false, //} //gob cannot encode nil in element in array (encodeArray: nil element) ts.Iptrslice = []*int64{nil, &i64a, nil, &i64b, nil, &i64c, nil, &i64d, nil} // ts.Iptrslice = nil } if depth > 0 { depth-- if ts.Mtsptr == nil { ts.Mtsptr = make(map[string]*TestStruc) } if ts.Mts == nil { ts.Mts = make(map[string]TestStruc) } ts.Mtsptr["0"] = newTestStruc(depth, bench) ts.Mts["0"] = *(ts.Mtsptr["0"]) ts.Its = append(ts.Its, ts.Mtsptr["0"]) } return } // doTestCodecTableOne allows us test for different variations based on arguments passed. func doTestCodecTableOne(t *testing.T, testNil bool, h Handle, vs []interface{}, vsVerify []interface{}) { //if testNil, then just test for when a pointer to a nil interface{} is passed. It should work. //Current setup allows us test (at least manually) the nil interface or typed interface. logT(t, "================ TestNil: %v ================\n", testNil) for i, v0 := range vs { logT(t, "..............................................") logT(t, " Testing: #%d:, %T, %#v\n", i, v0, v0) b0, err := testMarshalErr(v0, h, t, "v0") if err != nil { continue } logT(t, " Encoded bytes: len: %v, %v\n", len(b0), b0) var v1 interface{} if testNil { err = testUnmarshal(&v1, b0, h) } else { if v0 != nil { v0rt := reflect.TypeOf(v0) // ptr rv1 := reflect.New(v0rt) err = testUnmarshal(rv1.Interface(), b0, h) v1 = rv1.Elem().Interface() // v1 = reflect.Indirect(reflect.ValueOf(v1)).Interface() } } logT(t, " v1 returned: %T, %#v", v1, v1) // if v1 != nil { // logT(t, " v1 returned: %T, %#v", v1, v1) // //we always indirect, because ptr to typed value may be passed (if not testNil) // v1 = reflect.Indirect(reflect.ValueOf(v1)).Interface() // } if err != nil { logT(t, "-------- Error: %v. Partial return: %v", err, v1) failT(t) continue } v0check := vsVerify[i] if v0check == skipVerifyVal { logT(t, " Nil Check skipped: Decoded: %T, %#v\n", v1, v1) continue } if err = deepEqual(v0check, v1); err == nil { logT(t, "++++++++ Before and After marshal matched\n") } else { logT(t, "-------- Before and After marshal do not match: Error: %v"+ " ====> GOLDEN: (%T) %#v, DECODED: (%T) %#v\n", err, v0check, v0check, v1, v1) failT(t) } } } func testCodecTableOne(t *testing.T, h Handle) { // func TestMsgpackAllExperimental(t *testing.T) { // dopts := testDecOpts(nil, nil, false, true, true), switch v := h.(type) { case *MsgpackHandle: var oldWriteExt, oldRawToString bool oldWriteExt, v.WriteExt = v.WriteExt, true oldRawToString, v.RawToString = v.RawToString, true doTestCodecTableOne(t, false, h, table, tableVerify) v.WriteExt, v.RawToString = oldWriteExt, oldRawToString default: doTestCodecTableOne(t, false, h, table, tableVerify) } // func TestMsgpackAll(t *testing.T) { idxTime, numPrim, numMap := 19, 23, 4 //skip []interface{} containing time.Time doTestCodecTableOne(t, false, h, table[:numPrim], tableVerify[:numPrim]) doTestCodecTableOne(t, false, h, table[numPrim+1:], tableVerify[numPrim+1:]) // func TestMsgpackNilStringMap(t *testing.T) { var oldMapType reflect.Type v := h.getBasicHandle() oldMapType, v.MapType = v.MapType, mapStrIntfTyp //skip time.Time, []interface{} containing time.Time, last map, and newStruc doTestCodecTableOne(t, true, h, table[:idxTime], tableTestNilVerify[:idxTime]) doTestCodecTableOne(t, true, h, table[numPrim+1:numPrim+numMap], tableTestNilVerify[numPrim+1:numPrim+numMap]) v.MapType = oldMapType // func TestMsgpackNilIntf(t *testing.T) { //do newTestStruc and last element of map doTestCodecTableOne(t, true, h, table[numPrim+numMap:], tableTestNilVerify[numPrim+numMap:]) //TODO? What is this one? //doTestCodecTableOne(t, true, h, table[17:18], tableTestNilVerify[17:18]) } func testCodecMiscOne(t *testing.T, h Handle) { b, err := testMarshalErr(32, h, t, "32") // Cannot do this nil one, because faster type assertion decoding will panic // var i *int32 // if err = testUnmarshal(b, i, nil); err == nil { // logT(t, "------- Expecting error because we cannot unmarshal to int32 nil ptr") // t.FailNow() // } var i2 int32 = 0 err = testUnmarshalErr(&i2, b, h, t, "int32-ptr") if i2 != int32(32) { logT(t, "------- didn't unmarshal to 32: Received: %d", i2) t.FailNow() } // func TestMsgpackDecodePtr(t *testing.T) { ts := newTestStruc(0, false) b, err = testMarshalErr(ts, h, t, "pointer-to-struct") if len(b) < 40 { logT(t, "------- Size must be > 40. Size: %d", len(b)) t.FailNow() } logT(t, "------- b: %v", b) ts2 := new(TestStruc) err = testUnmarshalErr(ts2, b, h, t, "pointer-to-struct") if ts2.I64 != math.MaxInt64*2/3 { logT(t, "------- Unmarshal wrong. Expect I64 = 64. Got: %v", ts2.I64) t.FailNow() } // func TestMsgpackIntfDecode(t *testing.T) { m := map[string]int{"A": 2, "B": 3} p := []interface{}{m} bs, err := testMarshalErr(p, h, t, "p") m2 := map[string]int{} p2 := []interface{}{m2} err = testUnmarshalErr(&p2, bs, h, t, "&p2") if m2["A"] != 2 || m2["B"] != 3 { logT(t, "m2 not as expected: expecting: %v, got: %v", m, m2) t.FailNow() } // log("m: %v, m2: %v, p: %v, p2: %v", m, m2, p, p2) checkEqualT(t, p, p2, "p=p2") checkEqualT(t, m, m2, "m=m2") if err = deepEqual(p, p2); err == nil { logT(t, "p and p2 match") } else { logT(t, "Not Equal: %v. p: %v, p2: %v", err, p, p2) t.FailNow() } if err = deepEqual(m, m2); err == nil { logT(t, "m and m2 match") } else { logT(t, "Not Equal: %v. m: %v, m2: %v", err, m, m2) t.FailNow() } // func TestMsgpackDecodeStructSubset(t *testing.T) { // test that we can decode a subset of the stream mm := map[string]interface{}{"A": 5, "B": 99, "C": 333} bs, err = testMarshalErr(mm, h, t, "mm") type ttt struct { A uint8 C int32 } var t2 ttt testUnmarshalErr(&t2, bs, h, t, "t2") t3 := ttt{5, 333} checkEqualT(t, t2, t3, "t2=t3") // println(">>>>>") // test simple arrays, non-addressable arrays, slices type tarr struct { A int64 B [3]int64 C []byte D [3]byte } var tarr0 = tarr{1, [3]int64{2, 3, 4}, []byte{4, 5, 6}, [3]byte{7, 8, 9}} // test both pointer and non-pointer (value) for _, tarr1 := range []interface{}{tarr0, &tarr0} { bs, err = testMarshalErr(tarr1, h, t, "tarr1") var tarr2 tarr testUnmarshalErr(&tarr2, bs, h, t, "tarr2") checkEqualT(t, tarr0, tarr2, "tarr0=tarr2") // fmt.Printf(">>>> err: %v. tarr1: %v, tarr2: %v\n", err, tarr0, tarr2) } // test byte array, even if empty (msgpack only) if h == testMsgpackH { type ystruct struct { Anarray []byte } var ya = ystruct{} testUnmarshalErr(&ya, []byte{0x91, 0x90}, h, t, "ya") } } func testCodecEmbeddedPointer(t *testing.T, h Handle) { type Z int type A struct { AnInt int } type B struct { *Z *A MoreInt int } var z Z = 4 x1 := &B{&z, &A{5}, 6} bs, err := testMarshalErr(x1, h, t, "x1") // fmt.Printf("buf: len(%v): %x\n", buf.Len(), buf.Bytes()) var x2 = new(B) err = testUnmarshalErr(x2, bs, h, t, "x2") err = checkEqualT(t, x1, x2, "x1=x2") _ = err } func doTestRpcOne(t *testing.T, rr Rpc, h Handle, doRequest bool, exitSleepMs time.Duration, ) (port int) { // rpc needs EOF, which is sent via a panic, and so must be recovered. if !recoverPanicToErr { logT(t, "EXPECTED. set recoverPanicToErr=true, since rpc needs EOF") t.FailNow() } srv := rpc.NewServer() srv.Register(testRpcInt) ln, err := net.Listen("tcp", "127.0.0.1:0") // log("listener: %v", ln.Addr()) checkErrT(t, err) port = (ln.Addr().(*net.TCPAddr)).Port // var opts *DecoderOptions // opts := testDecOpts // opts.MapType = mapStrIntfTyp // opts.RawToString = false serverExitChan := make(chan bool, 1) var serverExitFlag uint64 = 0 serverFn := func() { for { conn1, err1 := ln.Accept() // if err1 != nil { // //fmt.Printf("accept err1: %v\n", err1) // continue // } if atomic.LoadUint64(&serverExitFlag) == 1 { serverExitChan <- true conn1.Close() return // exit serverFn goroutine } if err1 == nil { var sc rpc.ServerCodec = rr.ServerCodec(conn1, h) srv.ServeCodec(sc) } } } clientFn := func(cc rpc.ClientCodec) { cl := rpc.NewClientWithCodec(cc) defer cl.Close() var up, sq, mult int var rstr string // log("Calling client") checkErrT(t, cl.Call("TestRpcInt.Update", 5, &up)) // log("Called TestRpcInt.Update") checkEqualT(t, testRpcInt.i, 5, "testRpcInt.i=5") checkEqualT(t, up, 5, "up=5") checkErrT(t, cl.Call("TestRpcInt.Square", 1, &sq)) checkEqualT(t, sq, 25, "sq=25") checkErrT(t, cl.Call("TestRpcInt.Mult", 20, &mult)) checkEqualT(t, mult, 100, "mult=100") checkErrT(t, cl.Call("TestRpcInt.EchoStruct", TestABC{"Aa", "Bb", "Cc"}, &rstr)) checkEqualT(t, rstr, fmt.Sprintf("%#v", TestABC{"Aa", "Bb", "Cc"}), "rstr=") checkErrT(t, cl.Call("TestRpcInt.Echo123", []string{"A1", "B2", "C3"}, &rstr)) checkEqualT(t, rstr, fmt.Sprintf("%#v", []string{"A1", "B2", "C3"}), "rstr=") } connFn := func() (bs net.Conn) { // log("calling f1") bs, err2 := net.Dial(ln.Addr().Network(), ln.Addr().String()) //fmt.Printf("f1. bs: %v, err2: %v\n", bs, err2) checkErrT(t, err2) return } exitFn := func() { atomic.StoreUint64(&serverExitFlag, 1) bs := connFn() <-serverExitChan bs.Close() // serverExitChan <- true } go serverFn() runtime.Gosched() //time.Sleep(100 * time.Millisecond) if exitSleepMs == 0 { defer ln.Close() defer exitFn() } if doRequest { bs := connFn() cc := rr.ClientCodec(bs, h) clientFn(cc) } if exitSleepMs != 0 { go func() { defer ln.Close() time.Sleep(exitSleepMs) exitFn() }() } return } // Comprehensive testing that generates data encoded from python msgpack, // and validates that our code can read and write it out accordingly. // We keep this unexported here, and put actual test in ext_dep_test.go. // This way, it can be excluded by excluding file completely. func doTestMsgpackPythonGenStreams(t *testing.T) { logT(t, "TestPythonGenStreams") tmpdir, err := ioutil.TempDir("", "golang-msgpack-test") if err != nil { logT(t, "-------- Unable to create temp directory\n") t.FailNow() } defer os.RemoveAll(tmpdir) logT(t, "tmpdir: %v", tmpdir) cmd := exec.Command("python", "msgpack_test.py", "testdata", tmpdir) //cmd.Stdin = strings.NewReader("some input") //cmd.Stdout = &out var cmdout []byte if cmdout, err = cmd.CombinedOutput(); err != nil { logT(t, "-------- Error running msgpack_test.py testdata. Err: %v", err) logT(t, " %v", string(cmdout)) t.FailNow() } oldMapType := testMsgpackH.MapType for i, v := range tablePythonVerify { testMsgpackH.MapType = oldMapType //load up the golden file based on number //decode it //compare to in-mem object //encode it again //compare to output stream logT(t, "..............................................") logT(t, " Testing: #%d: %T, %#v\n", i, v, v) var bss []byte bss, err = ioutil.ReadFile(filepath.Join(tmpdir, strconv.Itoa(i)+".golden")) if err != nil { logT(t, "-------- Error reading golden file: %d. Err: %v", i, err) failT(t) continue } testMsgpackH.MapType = mapStrIntfTyp var v1 interface{} if err = testUnmarshal(&v1, bss, testMsgpackH); err != nil { logT(t, "-------- Error decoding stream: %d: Err: %v", i, err) failT(t) continue } if v == skipVerifyVal { continue } //no need to indirect, because we pass a nil ptr, so we already have the value //if v1 != nil { v1 = reflect.Indirect(reflect.ValueOf(v1)).Interface() } if err = deepEqual(v, v1); err == nil { logT(t, "++++++++ Objects match") } else { logT(t, "-------- Objects do not match: %v. Source: %T. Decoded: %T", err, v, v1) logT(t, "-------- AGAINST: %#v", v) logT(t, "-------- DECODED: %#v <====> %#v", v1, reflect.Indirect(reflect.ValueOf(v1)).Interface()) failT(t) } bsb, err := testMarshal(v1, testMsgpackH) if err != nil { logT(t, "Error encoding to stream: %d: Err: %v", i, err) failT(t) continue } if err = deepEqual(bsb, bss); err == nil { logT(t, "++++++++ Bytes match") } else { logT(t, "???????? Bytes do not match. %v.", err) xs := "--------" if reflect.ValueOf(v).Kind() == reflect.Map { xs = " " logT(t, "%s It's a map. Ok that they don't match (dependent on ordering).", xs) } else { logT(t, "%s It's not a map. They should match.", xs) failT(t) } logT(t, "%s FROM_FILE: %4d] %v", xs, len(bss), bss) logT(t, "%s ENCODED: %4d] %v", xs, len(bsb), bsb) } } testMsgpackH.MapType = oldMapType } // To test MsgpackSpecRpc, we test 3 scenarios: // - Go Client to Go RPC Service (contained within TestMsgpackRpcSpec) // - Go client to Python RPC Service (contained within doTestMsgpackRpcSpecGoClientToPythonSvc) // - Python Client to Go RPC Service (contained within doTestMsgpackRpcSpecPythonClientToGoSvc) // // This allows us test the different calling conventions // - Go Service requires only one argument // - Python Service allows multiple arguments func doTestMsgpackRpcSpecGoClientToPythonSvc(t *testing.T) { openPort := "6789" cmd := exec.Command("python", "msgpack_test.py", "rpc-server", openPort, "2") checkErrT(t, cmd.Start()) time.Sleep(100 * time.Millisecond) // time for python rpc server to start bs, err2 := net.Dial("tcp", ":"+openPort) checkErrT(t, err2) cc := MsgpackSpecRpc.ClientCodec(bs, testMsgpackH) cl := rpc.NewClientWithCodec(cc) defer cl.Close() var rstr string checkErrT(t, cl.Call("EchoStruct", TestABC{"Aa", "Bb", "Cc"}, &rstr)) //checkEqualT(t, rstr, "{'A': 'Aa', 'B': 'Bb', 'C': 'Cc'}") var mArgs MsgpackSpecRpcMultiArgs = []interface{}{"A1", "B2", "C3"} checkErrT(t, cl.Call("Echo123", mArgs, &rstr)) checkEqualT(t, rstr, "1:A1 2:B2 3:C3", "rstr=") } func doTestMsgpackRpcSpecPythonClientToGoSvc(t *testing.T) { port := doTestRpcOne(t, MsgpackSpecRpc, testMsgpackH, false, 1*time.Second) //time.Sleep(1000 * time.Millisecond) cmd := exec.Command("python", "msgpack_test.py", "rpc-client-go-service", strconv.Itoa(port)) var cmdout []byte var err error if cmdout, err = cmd.CombinedOutput(); err != nil { logT(t, "-------- Error running msgpack_test.py rpc-client-go-service. Err: %v", err) logT(t, " %v", string(cmdout)) t.FailNow() } checkEqualT(t, string(cmdout), fmt.Sprintf("%#v\n%#v\n", []string{"A1", "B2", "C3"}, TestABC{"Aa", "Bb", "Cc"}), "cmdout=") } func TestBincCodecsTable(t *testing.T) { testCodecTableOne(t, testBincH) } func TestBincCodecsMisc(t *testing.T) { testCodecMiscOne(t, testBincH) } func TestBincCodecsEmbeddedPointer(t *testing.T) { testCodecEmbeddedPointer(t, testBincH) } func TestSimpleCodecsTable(t *testing.T) { testCodecTableOne(t, testSimpleH) } func TestSimpleCodecsMisc(t *testing.T) { testCodecMiscOne(t, testSimpleH) } func TestSimpleCodecsEmbeddedPointer(t *testing.T) { testCodecEmbeddedPointer(t, testSimpleH) } func TestMsgpackCodecsTable(t *testing.T) { testCodecTableOne(t, testMsgpackH) } func TestMsgpackCodecsMisc(t *testing.T) { testCodecMiscOne(t, testMsgpackH) } func TestMsgpackCodecsEmbeddedPointer(t *testing.T) { testCodecEmbeddedPointer(t, testMsgpackH) } func TestBincRpcGo(t *testing.T) { doTestRpcOne(t, GoRpc, testBincH, true, 0) } func _TestSimpleRpcGo(t *testing.T) { doTestRpcOne(t, GoRpc, testSimpleH, true, 0) } func TestMsgpackRpcGo(t *testing.T) { doTestRpcOne(t, GoRpc, testMsgpackH, true, 0) } func TestMsgpackRpcSpec(t *testing.T) { doTestRpcOne(t, MsgpackSpecRpc, testMsgpackH, true, 0) } // TODO: // Add Tests for: // - decoding empty list/map in stream into a nil slice/map // - binary(M|Unm)arsher support for time.Time