package echo import ( "bytes" "encoding/json" "encoding/xml" "errors" "io" "mime/multipart" "net/http" "net/http/httptest" "reflect" "strconv" "strings" "testing" "time" "github.com/stretchr/testify/assert" ) type ( bindTestStruct struct { I int PtrI *int I8 int8 PtrI8 *int8 I16 int16 PtrI16 *int16 I32 int32 PtrI32 *int32 I64 int64 PtrI64 *int64 UI uint PtrUI *uint UI8 uint8 PtrUI8 *uint8 UI16 uint16 PtrUI16 *uint16 UI32 uint32 PtrUI32 *uint32 UI64 uint64 PtrUI64 *uint64 B bool PtrB *bool F32 float32 PtrF32 *float32 F64 float64 PtrF64 *float64 S string PtrS *string cantSet string DoesntExist string GoT time.Time GoTptr *time.Time T Timestamp Tptr *Timestamp SA StringArray } bindTestStructWithTags struct { I int `json:"I" form:"I"` PtrI *int `json:"PtrI" form:"PtrI"` I8 int8 `json:"I8" form:"I8"` PtrI8 *int8 `json:"PtrI8" form:"PtrI8"` I16 int16 `json:"I16" form:"I16"` PtrI16 *int16 `json:"PtrI16" form:"PtrI16"` I32 int32 `json:"I32" form:"I32"` PtrI32 *int32 `json:"PtrI32" form:"PtrI32"` I64 int64 `json:"I64" form:"I64"` PtrI64 *int64 `json:"PtrI64" form:"PtrI64"` UI uint `json:"UI" form:"UI"` PtrUI *uint `json:"PtrUI" form:"PtrUI"` UI8 uint8 `json:"UI8" form:"UI8"` PtrUI8 *uint8 `json:"PtrUI8" form:"PtrUI8"` UI16 uint16 `json:"UI16" form:"UI16"` PtrUI16 *uint16 `json:"PtrUI16" form:"PtrUI16"` UI32 uint32 `json:"UI32" form:"UI32"` PtrUI32 *uint32 `json:"PtrUI32" form:"PtrUI32"` UI64 uint64 `json:"UI64" form:"UI64"` PtrUI64 *uint64 `json:"PtrUI64" form:"PtrUI64"` B bool `json:"B" form:"B"` PtrB *bool `json:"PtrB" form:"PtrB"` F32 float32 `json:"F32" form:"F32"` PtrF32 *float32 `json:"PtrF32" form:"PtrF32"` F64 float64 `json:"F64" form:"F64"` PtrF64 *float64 `json:"PtrF64" form:"PtrF64"` S string `json:"S" form:"S"` PtrS *string `json:"PtrS" form:"PtrS"` cantSet string DoesntExist string `json:"DoesntExist" form:"DoesntExist"` GoT time.Time `json:"GoT" form:"GoT"` GoTptr *time.Time `json:"GoTptr" form:"GoTptr"` T Timestamp `json:"T" form:"T"` Tptr *Timestamp `json:"Tptr" form:"Tptr"` SA StringArray `json:"SA" form:"SA"` } Timestamp time.Time TA []Timestamp StringArray []string Struct struct { Foo string } ) func (t *Timestamp) UnmarshalParam(src string) error { ts, err := time.Parse(time.RFC3339, src) *t = Timestamp(ts) return err } func (a *StringArray) UnmarshalParam(src string) error { *a = StringArray(strings.Split(src, ",")) return nil } func (s *Struct) UnmarshalParam(src string) error { *s = Struct{ Foo: src, } return nil } func (t bindTestStruct) GetCantSet() string { return t.cantSet } var values = map[string][]string{ "I": {"0"}, "PtrI": {"0"}, "I8": {"8"}, "PtrI8": {"8"}, "I16": {"16"}, "PtrI16": {"16"}, "I32": {"32"}, "PtrI32": {"32"}, "I64": {"64"}, "PtrI64": {"64"}, "UI": {"0"}, "PtrUI": {"0"}, "UI8": {"8"}, "PtrUI8": {"8"}, "UI16": {"16"}, "PtrUI16": {"16"}, "UI32": {"32"}, "PtrUI32": {"32"}, "UI64": {"64"}, "PtrUI64": {"64"}, "B": {"true"}, "PtrB": {"true"}, "F32": {"32.5"}, "PtrF32": {"32.5"}, "F64": {"64.5"}, "PtrF64": {"64.5"}, "S": {"test"}, "PtrS": {"test"}, "cantSet": {"test"}, "T": {"2016-12-06T19:09:05+01:00"}, "Tptr": {"2016-12-06T19:09:05+01:00"}, "GoT": {"2016-12-06T19:09:05+01:00"}, "GoTptr": {"2016-12-06T19:09:05+01:00"}, "ST": {"bar"}, } func TestBindJSON(t *testing.T) { assert := assert.New(t) testBindOkay(assert, strings.NewReader(userJSON), MIMEApplicationJSON) testBindError(assert, strings.NewReader(invalidContent), MIMEApplicationJSON, &json.SyntaxError{}) testBindError(assert, strings.NewReader(userJSONInvalidType), MIMEApplicationJSON, &json.UnmarshalTypeError{}) } func TestBindXML(t *testing.T) { assert := assert.New(t) testBindOkay(assert, strings.NewReader(userXML), MIMEApplicationXML) testBindError(assert, strings.NewReader(invalidContent), MIMEApplicationXML, errors.New("")) testBindError(assert, strings.NewReader(userXMLConvertNumberError), MIMEApplicationXML, &strconv.NumError{}) testBindError(assert, strings.NewReader(userXMLUnsupportedTypeError), MIMEApplicationXML, &xml.SyntaxError{}) testBindOkay(assert, strings.NewReader(userXML), MIMETextXML) testBindError(assert, strings.NewReader(invalidContent), MIMETextXML, errors.New("")) testBindError(assert, strings.NewReader(userXMLConvertNumberError), MIMETextXML, &strconv.NumError{}) testBindError(assert, strings.NewReader(userXMLUnsupportedTypeError), MIMETextXML, &xml.SyntaxError{}) } func TestBindForm(t *testing.T) { assert := assert.New(t) testBindOkay(assert, strings.NewReader(userForm), MIMEApplicationForm) e := New() req := httptest.NewRequest(http.MethodPost, "/", strings.NewReader(userForm)) rec := httptest.NewRecorder() c := e.NewContext(req, rec) req.Header.Set(HeaderContentType, MIMEApplicationForm) err := c.Bind(&[]struct{ Field string }{}) assert.Error(err) } func TestBindQueryParams(t *testing.T) { e := New() req := httptest.NewRequest(http.MethodGet, "/?id=1&name=Jon+Snow", nil) rec := httptest.NewRecorder() c := e.NewContext(req, rec) u := new(user) err := c.Bind(u) if assert.NoError(t, err) { assert.Equal(t, 1, u.ID) assert.Equal(t, "Jon Snow", u.Name) } } func TestBindQueryParamsCaseInsensitive(t *testing.T) { e := New() req := httptest.NewRequest(http.MethodGet, "/?ID=1&NAME=Jon+Snow", nil) rec := httptest.NewRecorder() c := e.NewContext(req, rec) u := new(user) err := c.Bind(u) if assert.NoError(t, err) { assert.Equal(t, 1, u.ID) assert.Equal(t, "Jon Snow", u.Name) } } func TestBindQueryParamsCaseSensitivePrioritized(t *testing.T) { e := New() req := httptest.NewRequest(http.MethodGet, "/?id=1&ID=2&NAME=Jon+Snow&name=Jon+Doe", nil) rec := httptest.NewRecorder() c := e.NewContext(req, rec) u := new(user) err := c.Bind(u) if assert.NoError(t, err) { assert.Equal(t, 1, u.ID) assert.Equal(t, "Jon Doe", u.Name) } } func TestBindUnmarshalParam(t *testing.T) { e := New() req := httptest.NewRequest(http.MethodGet, "/?ts=2016-12-06T19:09:05Z&sa=one,two,three&ta=2016-12-06T19:09:05Z&ta=2016-12-06T19:09:05Z&ST=baz", nil) rec := httptest.NewRecorder() c := e.NewContext(req, rec) result := struct { T Timestamp `query:"ts"` TA []Timestamp `query:"ta"` SA StringArray `query:"sa"` ST Struct }{} err := c.Bind(&result) ts := Timestamp(time.Date(2016, 12, 6, 19, 9, 5, 0, time.UTC)) assert := assert.New(t) if assert.NoError(err) { // assert.Equal( Timestamp(reflect.TypeOf(&Timestamp{}), time.Date(2016, 12, 6, 19, 9, 5, 0, time.UTC)), result.T) assert.Equal(ts, result.T) assert.Equal(StringArray([]string{"one", "two", "three"}), result.SA) assert.Equal([]Timestamp{ts, ts}, result.TA) assert.Equal(Struct{"baz"}, result.ST) } } func TestBindUnmarshalText(t *testing.T) { e := New() req := httptest.NewRequest(GET, "/?ts=2016-12-06T19:09:05Z&sa=one,two,three&ta=2016-12-06T19:09:05Z&ta=2016-12-06T19:09:05Z&ST=baz", nil) rec := httptest.NewRecorder() c := e.NewContext(req, rec) result := struct { T time.Time `query:"ts"` TA []time.Time `query:"ta"` SA StringArray `query:"sa"` ST Struct }{} err := c.Bind(&result) ts := time.Date(2016, 12, 6, 19, 9, 5, 0, time.UTC) if assert.NoError(t, err) { // assert.Equal(t, Timestamp(reflect.TypeOf(&Timestamp{}), time.Date(2016, 12, 6, 19, 9, 5, 0, time.UTC)), result.T) assert.Equal(t, ts, result.T) assert.Equal(t, StringArray([]string{"one", "two", "three"}), result.SA) assert.Equal(t, []time.Time{ts, ts}, result.TA) assert.Equal(t, Struct{"baz"}, result.ST) } } func TestBindUnmarshalParamPtr(t *testing.T) { e := New() req := httptest.NewRequest(http.MethodGet, "/?ts=2016-12-06T19:09:05Z", nil) rec := httptest.NewRecorder() c := e.NewContext(req, rec) result := struct { Tptr *Timestamp `query:"ts"` }{} err := c.Bind(&result) if assert.NoError(t, err) { assert.Equal(t, Timestamp(time.Date(2016, 12, 6, 19, 9, 5, 0, time.UTC)), *result.Tptr) } } func TestBindUnmarshalTextPtr(t *testing.T) { e := New() req := httptest.NewRequest(GET, "/?ts=2016-12-06T19:09:05Z", nil) rec := httptest.NewRecorder() c := e.NewContext(req, rec) result := struct { Tptr *time.Time `query:"ts"` }{} err := c.Bind(&result) if assert.NoError(t, err) { assert.Equal(t, time.Date(2016, 12, 6, 19, 9, 5, 0, time.UTC), *result.Tptr) } } func TestBindMultipartForm(t *testing.T) { body := new(bytes.Buffer) mw := multipart.NewWriter(body) mw.WriteField("id", "1") mw.WriteField("name", "Jon Snow") mw.Close() assert := assert.New(t) testBindOkay(assert, body, mw.FormDataContentType()) } func TestBindUnsupportedMediaType(t *testing.T) { assert := assert.New(t) testBindError(assert, strings.NewReader(invalidContent), MIMEApplicationJSON, &json.SyntaxError{}) } func TestBindbindData(t *testing.T) { assert := assert.New(t) ts := new(bindTestStruct) b := new(DefaultBinder) b.bindData(ts, values, "form") assertBindTestStruct(assert, ts) } func TestBindParam(t *testing.T) { e := New() *e.maxParam = 2 req := httptest.NewRequest(GET, "/", nil) rec := httptest.NewRecorder() c := e.NewContext(req, rec) c.SetPath("/users/:id/:name") c.SetParamNames("id", "name") c.SetParamValues("1", "Jon Snow") u := new(user) err := c.Bind(u) if assert.NoError(t, err) { assert.Equal(t, 1, u.ID) assert.Equal(t, "Jon Snow", u.Name) } // Second test for the absence of a param c2 := e.NewContext(req, rec) c2.SetPath("/users/:id") c2.SetParamNames("id") c2.SetParamValues("1") u = new(user) err = c2.Bind(u) if assert.NoError(t, err) { assert.Equal(t, 1, u.ID) assert.Equal(t, "", u.Name) } // Bind something with param and post data payload body := bytes.NewBufferString(`{ "name": "Jon Snow" }`) e2 := New() *e2.maxParam = 2 req2 := httptest.NewRequest(POST, "/", body) req2.Header.Set(HeaderContentType, MIMEApplicationJSON) rec2 := httptest.NewRecorder() c3 := e2.NewContext(req2, rec2) c3.SetPath("/users/:id") c3.SetParamNames("id") c3.SetParamValues("1") u = new(user) err = c3.Bind(u) if assert.NoError(t, err) { assert.Equal(t, 1, u.ID) assert.Equal(t, "Jon Snow", u.Name) } } func TestBindUnmarshalTypeError(t *testing.T) { body := bytes.NewBufferString(`{ "id": "text" }`) e := New() req := httptest.NewRequest(http.MethodPost, "/", body) req.Header.Set(HeaderContentType, MIMEApplicationJSON) rec := httptest.NewRecorder() c := e.NewContext(req, rec) u := new(user) err := c.Bind(u) he := &HTTPError{Code: http.StatusBadRequest, Message: "Unmarshal type error: expected=int, got=string, field=id, offset=14", Internal: err.(*HTTPError).Internal} assert.Equal(t, he, err) } func TestBindSetWithProperType(t *testing.T) { assert := assert.New(t) ts := new(bindTestStruct) typ := reflect.TypeOf(ts).Elem() val := reflect.ValueOf(ts).Elem() for i := 0; i < typ.NumField(); i++ { typeField := typ.Field(i) structField := val.Field(i) if !structField.CanSet() { continue } if len(values[typeField.Name]) == 0 { continue } val := values[typeField.Name][0] err := setWithProperType(typeField.Type.Kind(), val, structField) assert.NoError(err) } assertBindTestStruct(assert, ts) type foo struct { Bar bytes.Buffer } v := &foo{} typ = reflect.TypeOf(v).Elem() val = reflect.ValueOf(v).Elem() assert.Error(setWithProperType(typ.Field(0).Type.Kind(), "5", val.Field(0))) } func TestBindSetFields(t *testing.T) { assert := assert.New(t) ts := new(bindTestStruct) val := reflect.ValueOf(ts).Elem() // Int if assert.NoError(setIntField("5", 0, val.FieldByName("I"))) { assert.Equal(5, ts.I) } if assert.NoError(setIntField("", 0, val.FieldByName("I"))) { assert.Equal(0, ts.I) } // Uint if assert.NoError(setUintField("10", 0, val.FieldByName("UI"))) { assert.Equal(uint(10), ts.UI) } if assert.NoError(setUintField("", 0, val.FieldByName("UI"))) { assert.Equal(uint(0), ts.UI) } // Float if assert.NoError(setFloatField("15.5", 0, val.FieldByName("F32"))) { assert.Equal(float32(15.5), ts.F32) } if assert.NoError(setFloatField("", 0, val.FieldByName("F32"))) { assert.Equal(float32(0.0), ts.F32) } // Bool if assert.NoError(setBoolField("true", val.FieldByName("B"))) { assert.Equal(true, ts.B) } if assert.NoError(setBoolField("", val.FieldByName("B"))) { assert.Equal(false, ts.B) } ok, err := unmarshalFieldNonPtr("2016-12-06T19:09:05Z", val.FieldByName("T")) if assert.NoError(err) { assert.Equal(ok, true) assert.Equal(Timestamp(time.Date(2016, 12, 6, 19, 9, 5, 0, time.UTC)), ts.T) } } func BenchmarkBindbindData(b *testing.B) { b.ReportAllocs() assert := assert.New(b) ts := new(bindTestStruct) binder := new(DefaultBinder) var err error b.ResetTimer() for i := 0; i < b.N; i++ { err = binder.bindData(ts, values, "form") } assert.NoError(err) assertBindTestStruct(assert, ts) } func BenchmarkBindbindDataWithTags(b *testing.B) { b.ReportAllocs() assert := assert.New(b) ts := new(bindTestStructWithTags) binder := new(DefaultBinder) var err error b.ResetTimer() for i := 0; i < b.N; i++ { err = binder.bindData(ts, values, "form") } assert.NoError(err) assertBindTestStruct(assert, (*bindTestStruct)(ts)) } func assertBindTestStruct(a *assert.Assertions, ts *bindTestStruct) { a.Equal(0, ts.I) a.Equal(int8(8), ts.I8) a.Equal(int16(16), ts.I16) a.Equal(int32(32), ts.I32) a.Equal(int64(64), ts.I64) a.Equal(uint(0), ts.UI) a.Equal(uint8(8), ts.UI8) a.Equal(uint16(16), ts.UI16) a.Equal(uint32(32), ts.UI32) a.Equal(uint64(64), ts.UI64) a.Equal(true, ts.B) a.Equal(float32(32.5), ts.F32) a.Equal(float64(64.5), ts.F64) a.Equal("test", ts.S) a.Equal("", ts.GetCantSet()) } func testBindOkay(assert *assert.Assertions, r io.Reader, ctype string) { e := New() req := httptest.NewRequest(http.MethodPost, "/", r) rec := httptest.NewRecorder() c := e.NewContext(req, rec) req.Header.Set(HeaderContentType, ctype) u := new(user) err := c.Bind(u) if assert.NoError(err) { assert.Equal(1, u.ID) assert.Equal("Jon Snow", u.Name) } } func testBindError(assert *assert.Assertions, r io.Reader, ctype string, expectedInternal error) { e := New() req := httptest.NewRequest(http.MethodPost, "/", r) rec := httptest.NewRecorder() c := e.NewContext(req, rec) req.Header.Set(HeaderContentType, ctype) u := new(user) err := c.Bind(u) switch { case strings.HasPrefix(ctype, MIMEApplicationJSON), strings.HasPrefix(ctype, MIMEApplicationXML), strings.HasPrefix(ctype, MIMETextXML), strings.HasPrefix(ctype, MIMEApplicationForm), strings.HasPrefix(ctype, MIMEMultipartForm): if assert.IsType(new(HTTPError), err) { assert.Equal(http.StatusBadRequest, err.(*HTTPError).Code) assert.IsType(expectedInternal, err.(*HTTPError).Internal) } default: if assert.IsType(new(HTTPError), err) { assert.Equal(ErrUnsupportedMediaType, err) assert.IsType(expectedInternal, err.(*HTTPError).Internal) } } }