package mon import ( "context" "errors" "strings" "testing" "github.com/stretchr/testify/assert" "github.com/zeromicro/go-zero/core/breaker" "github.com/zeromicro/go-zero/core/logx" "github.com/zeromicro/go-zero/core/stringx" "github.com/zeromicro/go-zero/core/timex" "go.mongodb.org/mongo-driver/bson" "go.mongodb.org/mongo-driver/bson/primitive" "go.mongodb.org/mongo-driver/mongo" "go.mongodb.org/mongo-driver/mongo/integration/mtest" mopt "go.mongodb.org/mongo-driver/mongo/options" ) var errDummy = errors.New("dummy") func init() { logx.Disable() } func TestKeepPromise_accept(t *testing.T) { p := new(mockPromise) kp := keepablePromise{ promise: p, log: func(error) {}, } assert.Nil(t, kp.accept(nil)) assert.Equal(t, ErrNotFound, kp.accept(ErrNotFound)) } func TestKeepPromise_keep(t *testing.T) { tests := []struct { err error accepted bool reason string }{ { err: nil, accepted: true, reason: "", }, { err: ErrNotFound, accepted: true, reason: "", }, { err: errors.New("any"), accepted: false, reason: "any", }, } for _, test := range tests { t.Run(stringx.RandId(), func(t *testing.T) { p := new(mockPromise) kp := keepablePromise{ promise: p, log: func(error) {}, } assert.Equal(t, test.err, kp.keep(test.err)) assert.Equal(t, test.accepted, p.accepted) assert.Equal(t, test.reason, p.reason) }) } } func TestNewCollection(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { coll := mt.Coll assert.NotNil(t, coll) col := newCollection(coll, breaker.GetBreaker("localhost")) assert.Equal(t, t.Name()+"/test", col.(*decoratedCollection).name) }) } func TestCollection_Aggregate(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { coll := mt.Coll assert.NotNil(t, coll) col := newCollection(coll, breaker.GetBreaker("localhost")) ns := mt.Coll.Database().Name() + "." + mt.Coll.Name() aggRes := mtest.CreateCursorResponse(1, ns, mtest.FirstBatch) mt.AddMockResponses(aggRes) assert.Equal(t, t.Name()+"/test", col.(*decoratedCollection).name) cursor, err := col.Aggregate(context.Background(), mongo.Pipeline{}, mopt.Aggregate()) assert.Nil(t, err) cursor.Close(context.Background()) }) } func TestCollection_BulkWrite(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{{Key: "ok", Value: 1}}...)) res, err := c.BulkWrite(context.Background(), []mongo.WriteModel{ mongo.NewInsertOneModel().SetDocument(bson.D{{Key: "foo", Value: 1}})}, ) assert.Nil(t, err) assert.NotNil(t, res) c.brk = new(dropBreaker) _, err = c.BulkWrite(context.Background(), []mongo.WriteModel{ mongo.NewInsertOneModel().SetDocument(bson.D{{Key: "foo", Value: 1}})}, ) assert.Equal(t, errDummy, err) }) } func TestCollection_CountDocuments(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(mtest.CreateCursorResponse( 1, "DBName.CollectionName", mtest.FirstBatch, bson.D{ {Key: "n", Value: 1}, })) res, err := c.CountDocuments(context.Background(), bson.D{}) assert.Nil(t, err) assert.Equal(t, int64(1), res) c.brk = new(dropBreaker) _, err = c.CountDocuments(context.Background(), bson.D{{Key: "foo", Value: 1}}) assert.Equal(t, errDummy, err) }) } func TestDecoratedCollection_DeleteMany(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{{Key: "n", Value: 1}}...)) res, err := c.DeleteMany(context.Background(), bson.D{}) assert.Nil(t, err) assert.Equal(t, int64(1), res.DeletedCount) c.brk = new(dropBreaker) _, err = c.DeleteMany(context.Background(), bson.D{{Key: "foo", Value: 1}}) assert.Equal(t, errDummy, err) }) } func TestCollection_Distinct(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(bson.D{{Key: "ok", Value: 1}, {Key: "values", Value: []int{1}}}) resp, err := c.Distinct(context.Background(), "foo", bson.D{}) assert.Nil(t, err) assert.Equal(t, 1, len(resp)) c.brk = new(dropBreaker) _, err = c.Distinct(context.Background(), "foo", bson.D{{Key: "foo", Value: 1}}) assert.Equal(t, errDummy, err) }) } func TestCollection_EstimatedDocumentCount(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(bson.D{{Key: "ok", Value: 1}, {Key: "n", Value: 1}}) res, err := c.EstimatedDocumentCount(context.Background()) assert.Nil(t, err) assert.Equal(t, int64(1), res) c.brk = new(dropBreaker) _, err = c.EstimatedDocumentCount(context.Background()) assert.Equal(t, errDummy, err) }) } func TestCollectionFind(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } find := mtest.CreateCursorResponse( 1, "DBName.CollectionName", mtest.FirstBatch, bson.D{ {Key: "name", Value: "John"}, }) getMore := mtest.CreateCursorResponse( 1, "DBName.CollectionName", mtest.NextBatch, bson.D{ {Key: "name", Value: "Mary"}, }) killCursors := mtest.CreateCursorResponse( 0, "DBName.CollectionName", mtest.NextBatch) mt.AddMockResponses(find, getMore, killCursors) filter := bson.D{{Key: "x", Value: 1}} cursor, err := c.Find(context.Background(), filter, mopt.Find()) assert.Nil(t, err) defer cursor.Close(context.Background()) var val []struct { ID primitive.ObjectID `bson:"_id"` Name string `bson:"name"` } assert.Nil(t, cursor.All(context.Background(), &val)) assert.Equal(t, 2, len(val)) assert.Equal(t, "John", val[0].Name) assert.Equal(t, "Mary", val[1].Name) c.brk = new(dropBreaker) _, err = c.Find(context.Background(), filter, mopt.Find()) assert.Equal(t, errDummy, err) }) } func TestCollectionFindOne(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } find := mtest.CreateCursorResponse( 1, "DBName.CollectionName", mtest.FirstBatch, bson.D{ {Key: "name", Value: "John"}, }) getMore := mtest.CreateCursorResponse( 1, "DBName.CollectionName", mtest.NextBatch, bson.D{ {Key: "name", Value: "Mary"}, }) killCursors := mtest.CreateCursorResponse( 0, "DBName.CollectionName", mtest.NextBatch) mt.AddMockResponses(find, getMore, killCursors) filter := bson.D{{Key: "x", Value: 1}} resp, err := c.FindOne(context.Background(), filter) assert.Nil(t, err) var val struct { ID primitive.ObjectID `bson:"_id"` Name string `bson:"name"` } assert.Nil(t, resp.Decode(&val)) assert.Equal(t, "John", val.Name) c.brk = new(dropBreaker) _, err = c.FindOne(context.Background(), filter) assert.Equal(t, errDummy, err) }) } func TestCollection_FindOneAndDelete(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } filter := bson.D{} mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{}...)) _, err := c.FindOneAndDelete(context.Background(), filter, mopt.FindOneAndDelete()) assert.Equal(t, mongo.ErrNoDocuments, err) mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{ {Key: "value", Value: bson.D{{Key: "name", Value: "John"}}}, }...)) resp, err := c.FindOneAndDelete(context.Background(), filter, mopt.FindOneAndDelete()) assert.Nil(t, err) var val struct { Name string `bson:"name"` } assert.Nil(t, resp.Decode(&val)) assert.Equal(t, "John", val.Name) c.brk = new(dropBreaker) _, err = c.FindOneAndDelete(context.Background(), bson.D{{Key: "foo", Value: "bar"}}) assert.Equal(t, errDummy, err) }) } func TestCollection_FindOneAndReplace(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{}...)) filter := bson.D{{Key: "x", Value: 1}} replacement := bson.D{{Key: "x", Value: 2}} opts := mopt.FindOneAndReplace().SetUpsert(true) _, err := c.FindOneAndReplace(context.Background(), filter, replacement, opts) assert.Equal(t, mongo.ErrNoDocuments, err) mt.AddMockResponses(bson.D{{Key: "ok", Value: 1}, {Key: "value", Value: bson.D{ {Key: "name", Value: "John"}, }}}) resp, err := c.FindOneAndReplace(context.Background(), filter, replacement, opts) assert.Nil(t, err) var val struct { Name string `bson:"name"` } assert.Nil(t, resp.Decode(&val)) assert.Equal(t, "John", val.Name) c.brk = new(dropBreaker) _, err = c.FindOneAndReplace(context.Background(), filter, replacement, opts) assert.Equal(t, errDummy, err) }) } func TestCollection_FindOneAndUpdate(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(bson.D{{Key: "ok", Value: 1}}) filter := bson.D{{Key: "x", Value: 1}} update := bson.D{{Key: "$x", Value: 2}} opts := mopt.FindOneAndUpdate().SetUpsert(true) _, err := c.FindOneAndUpdate(context.Background(), filter, update, opts) assert.Equal(t, mongo.ErrNoDocuments, err) mt.AddMockResponses(bson.D{{Key: "ok", Value: 1}, {Key: "value", Value: bson.D{ {Key: "name", Value: "John"}, }}}) resp, err := c.FindOneAndUpdate(context.Background(), filter, update, opts) assert.Nil(t, err) var val struct { Name string `bson:"name"` } assert.Nil(t, resp.Decode(&val)) assert.Equal(t, "John", val.Name) c.brk = new(dropBreaker) _, err = c.FindOneAndUpdate(context.Background(), filter, update, opts) assert.Equal(t, errDummy, err) }) } func TestCollection_InsertOne(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{{Key: "ok", Value: 1}}...)) res, err := c.InsertOne(context.Background(), bson.D{{Key: "foo", Value: "bar"}}) assert.Nil(t, err) assert.NotNil(t, res) c.brk = new(dropBreaker) _, err = c.InsertOne(context.Background(), bson.D{{Key: "foo", Value: "bar"}}) assert.Equal(t, errDummy, err) }) } func TestCollection_InsertMany(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{{Key: "ok", Value: 1}}...)) res, err := c.InsertMany(context.Background(), []interface{}{ bson.D{{Key: "foo", Value: "bar"}}, bson.D{{Key: "foo", Value: "baz"}}, }) assert.Nil(t, err) assert.NotNil(t, res) assert.Equal(t, 2, len(res.InsertedIDs)) c.brk = new(dropBreaker) _, err = c.InsertMany(context.Background(), []interface{}{bson.D{{Key: "foo", Value: "bar"}}}) assert.Equal(t, errDummy, err) }) } func TestCollection_Remove(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{{Key: "n", Value: 1}}...)) res, err := c.DeleteOne(context.Background(), bson.D{{Key: "foo", Value: "bar"}}) assert.Nil(t, err) assert.Equal(t, int64(1), res.DeletedCount) c.brk = new(dropBreaker) _, err = c.DeleteOne(context.Background(), bson.D{{Key: "foo", Value: "bar"}}) assert.Equal(t, errDummy, err) }) } func TestCollectionRemoveAll(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{{Key: "n", Value: 1}}...)) res, err := c.DeleteMany(context.Background(), bson.D{{Key: "foo", Value: "bar"}}) assert.Nil(t, err) assert.Equal(t, int64(1), res.DeletedCount) c.brk = new(dropBreaker) _, err = c.DeleteMany(context.Background(), bson.D{{Key: "foo", Value: "bar"}}) assert.Equal(t, errDummy, err) }) } func TestCollection_ReplaceOne(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{{Key: "n", Value: 1}}...)) res, err := c.ReplaceOne(context.Background(), bson.D{{Key: "foo", Value: "bar"}}, bson.D{{Key: "foo", Value: "baz"}}, ) assert.Nil(t, err) assert.Equal(t, int64(1), res.MatchedCount) c.brk = new(dropBreaker) _, err = c.ReplaceOne(context.Background(), bson.D{{Key: "foo", Value: "bar"}}, bson.D{{Key: "foo", Value: "baz"}}) assert.Equal(t, errDummy, err) }) } func TestCollection_UpdateOne(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{{Key: "n", Value: 1}}...)) resp, err := c.UpdateOne(context.Background(), bson.D{{Key: "foo", Value: "bar"}}, bson.D{{Key: "$set", Value: bson.D{{Key: "baz", Value: "qux"}}}}) assert.Nil(t, err) assert.Equal(t, int64(1), resp.MatchedCount) c.brk = new(dropBreaker) _, err = c.UpdateOne(context.Background(), bson.D{{Key: "foo", Value: "bar"}}, bson.D{{Key: "$set", Value: bson.D{{Key: "baz", Value: "qux"}}}}) assert.Equal(t, errDummy, err) }) } func TestCollection_UpdateByID(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{{Key: "n", Value: 1}}...)) resp, err := c.UpdateByID(context.Background(), primitive.NewObjectID(), bson.D{{Key: "$set", Value: bson.D{{Key: "baz", Value: "qux"}}}}) assert.Nil(t, err) assert.Equal(t, int64(1), resp.MatchedCount) c.brk = new(dropBreaker) _, err = c.UpdateByID(context.Background(), primitive.NewObjectID(), bson.D{{Key: "$set", Value: bson.D{{Key: "baz", Value: "qux"}}}}) assert.Equal(t, errDummy, err) }) } func TestCollection_UpdateMany(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() mt.Run("test", func(mt *mtest.T) { c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } mt.AddMockResponses(mtest.CreateSuccessResponse(bson.D{{Key: "n", Value: 1}}...)) resp, err := c.UpdateMany(context.Background(), bson.D{{Key: "foo", Value: "bar"}}, bson.D{{Key: "$set", Value: bson.D{{Key: "baz", Value: "qux"}}}}) assert.Nil(t, err) assert.Equal(t, int64(1), resp.MatchedCount) c.brk = new(dropBreaker) _, err = c.UpdateMany(context.Background(), bson.D{{Key: "foo", Value: "bar"}}, bson.D{{Key: "$set", Value: bson.D{{Key: "baz", Value: "qux"}}}}) assert.Equal(t, errDummy, err) }) } func Test_DecoratedCollectionLogDuration(t *testing.T) { mt := mtest.New(t, mtest.NewOptions().ClientType(mtest.Mock)) defer mt.Close() c := decoratedCollection{ Collection: mt.Coll, brk: breaker.NewBreaker(), } var buf strings.Builder w := logx.NewWriter(&buf) o := logx.Reset() logx.SetWriter(w) defer func() { logx.Reset() logx.SetWriter(o) }() buf.Reset() c.logDuration(context.Background(), "foo", timex.Now(), nil, "bar") assert.Contains(t, buf.String(), "foo") assert.Contains(t, buf.String(), "bar") buf.Reset() c.logDuration(context.Background(), "foo", timex.Now(), errors.New("bar"), make(chan int)) assert.Contains(t, buf.String(), "foo") assert.Contains(t, buf.String(), "bar") buf.Reset() c.logDuration(context.Background(), "foo", timex.Now(), nil, make(chan int)) assert.Contains(t, buf.String(), "foo") buf.Reset() c.logDuration(context.Background(), "foo", timex.Now()-slowThreshold.Load()*2, nil, make(chan int)) assert.Contains(t, buf.String(), "foo") assert.Contains(t, buf.String(), "slowcall") buf.Reset() c.logDuration(context.Background(), "foo", timex.Now()-slowThreshold.Load()*2, errors.New("bar"), make(chan int)) assert.Contains(t, buf.String(), "foo") assert.Contains(t, buf.String(), "bar") assert.Contains(t, buf.String(), "slowcall") buf.Reset() c.logDuration(context.Background(), "foo", timex.Now()-slowThreshold.Load()*2, errors.New("bar")) assert.Contains(t, buf.String(), "foo") assert.Contains(t, buf.String(), "slowcall") buf.Reset() c.logDuration(context.Background(), "foo", timex.Now()-slowThreshold.Load()*2, nil) assert.Contains(t, buf.String(), "foo") assert.Contains(t, buf.String(), "slowcall") } type mockPromise struct { accepted bool reason string } func (p *mockPromise) Accept() { p.accepted = true } func (p *mockPromise) Reject(reason string) { p.reason = reason } type dropBreaker struct{} func (d *dropBreaker) Name() string { return "dummy" } func (d *dropBreaker) Allow() (breaker.Promise, error) { return nil, errDummy } func (d *dropBreaker) Do(_ func() error) error { return nil } func (d *dropBreaker) DoWithAcceptable(_ func() error, _ breaker.Acceptable) error { return errDummy } func (d *dropBreaker) DoWithFallback(_ func() error, _ func(err error) error) error { return nil } func (d *dropBreaker) DoWithFallbackAcceptable(_ func() error, _ func(err error) error, _ breaker.Acceptable) error { return nil }