You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 
minio/vendor/gopkg.in/Shopify/sarama.v1/mockresponses.go

455 lines
12 KiB

package sarama
import (
"fmt"
)
// TestReporter has methods matching go's testing.T to avoid importing
// `testing` in the main part of the library.
type TestReporter interface {
Error(...interface{})
Errorf(string, ...interface{})
Fatal(...interface{})
Fatalf(string, ...interface{})
}
// MockResponse is a response builder interface it defines one method that
// allows generating a response based on a request body. MockResponses are used
// to program behavior of MockBroker in tests.
type MockResponse interface {
For(reqBody versionedDecoder) (res encoder)
}
// MockWrapper is a mock response builder that returns a particular concrete
// response regardless of the actual request passed to the `For` method.
type MockWrapper struct {
res encoder
}
func (mw *MockWrapper) For(reqBody versionedDecoder) (res encoder) {
return mw.res
}
func NewMockWrapper(res encoder) *MockWrapper {
return &MockWrapper{res: res}
}
// MockSequence is a mock response builder that is created from a sequence of
// concrete responses. Every time when a `MockBroker` calls its `For` method
// the next response from the sequence is returned. When the end of the
// sequence is reached the last element from the sequence is returned.
type MockSequence struct {
responses []MockResponse
}
func NewMockSequence(responses ...interface{}) *MockSequence {
ms := &MockSequence{}
ms.responses = make([]MockResponse, len(responses))
for i, res := range responses {
switch res := res.(type) {
case MockResponse:
ms.responses[i] = res
case encoder:
ms.responses[i] = NewMockWrapper(res)
default:
panic(fmt.Sprintf("Unexpected response type: %T", res))
}
}
return ms
}
func (mc *MockSequence) For(reqBody versionedDecoder) (res encoder) {
res = mc.responses[0].For(reqBody)
if len(mc.responses) > 1 {
mc.responses = mc.responses[1:]
}
return res
}
// MockMetadataResponse is a `MetadataResponse` builder.
type MockMetadataResponse struct {
leaders map[string]map[int32]int32
brokers map[string]int32
t TestReporter
}
func NewMockMetadataResponse(t TestReporter) *MockMetadataResponse {
return &MockMetadataResponse{
leaders: make(map[string]map[int32]int32),
brokers: make(map[string]int32),
t: t,
}
}
func (mmr *MockMetadataResponse) SetLeader(topic string, partition, brokerID int32) *MockMetadataResponse {
partitions := mmr.leaders[topic]
if partitions == nil {
partitions = make(map[int32]int32)
mmr.leaders[topic] = partitions
}
partitions[partition] = brokerID
return mmr
}
func (mmr *MockMetadataResponse) SetBroker(addr string, brokerID int32) *MockMetadataResponse {
mmr.brokers[addr] = brokerID
return mmr
}
func (mmr *MockMetadataResponse) For(reqBody versionedDecoder) encoder {
metadataRequest := reqBody.(*MetadataRequest)
metadataResponse := &MetadataResponse{}
for addr, brokerID := range mmr.brokers {
metadataResponse.AddBroker(addr, brokerID)
}
if len(metadataRequest.Topics) == 0 {
for topic, partitions := range mmr.leaders {
for partition, brokerID := range partitions {
metadataResponse.AddTopicPartition(topic, partition, brokerID, nil, nil, ErrNoError)
}
}
return metadataResponse
}
for _, topic := range metadataRequest.Topics {
for partition, brokerID := range mmr.leaders[topic] {
metadataResponse.AddTopicPartition(topic, partition, brokerID, nil, nil, ErrNoError)
}
}
return metadataResponse
}
// MockOffsetResponse is an `OffsetResponse` builder.
type MockOffsetResponse struct {
offsets map[string]map[int32]map[int64]int64
t TestReporter
}
func NewMockOffsetResponse(t TestReporter) *MockOffsetResponse {
return &MockOffsetResponse{
offsets: make(map[string]map[int32]map[int64]int64),
t: t,
}
}
func (mor *MockOffsetResponse) SetOffset(topic string, partition int32, time, offset int64) *MockOffsetResponse {
partitions := mor.offsets[topic]
if partitions == nil {
partitions = make(map[int32]map[int64]int64)
mor.offsets[topic] = partitions
}
times := partitions[partition]
if times == nil {
times = make(map[int64]int64)
partitions[partition] = times
}
times[time] = offset
return mor
}
func (mor *MockOffsetResponse) For(reqBody versionedDecoder) encoder {
offsetRequest := reqBody.(*OffsetRequest)
offsetResponse := &OffsetResponse{}
for topic, partitions := range offsetRequest.blocks {
for partition, block := range partitions {
offset := mor.getOffset(topic, partition, block.time)
offsetResponse.AddTopicPartition(topic, partition, offset)
}
}
return offsetResponse
}
func (mor *MockOffsetResponse) getOffset(topic string, partition int32, time int64) int64 {
partitions := mor.offsets[topic]
if partitions == nil {
mor.t.Errorf("missing topic: %s", topic)
}
times := partitions[partition]
if times == nil {
mor.t.Errorf("missing partition: %d", partition)
}
offset, ok := times[time]
if !ok {
mor.t.Errorf("missing time: %d", time)
}
return offset
}
// MockFetchResponse is a `FetchResponse` builder.
type MockFetchResponse struct {
messages map[string]map[int32]map[int64]Encoder
highWaterMarks map[string]map[int32]int64
t TestReporter
batchSize int
}
func NewMockFetchResponse(t TestReporter, batchSize int) *MockFetchResponse {
return &MockFetchResponse{
messages: make(map[string]map[int32]map[int64]Encoder),
highWaterMarks: make(map[string]map[int32]int64),
t: t,
batchSize: batchSize,
}
}
func (mfr *MockFetchResponse) SetMessage(topic string, partition int32, offset int64, msg Encoder) *MockFetchResponse {
partitions := mfr.messages[topic]
if partitions == nil {
partitions = make(map[int32]map[int64]Encoder)
mfr.messages[topic] = partitions
}
messages := partitions[partition]
if messages == nil {
messages = make(map[int64]Encoder)
partitions[partition] = messages
}
messages[offset] = msg
return mfr
}
func (mfr *MockFetchResponse) SetHighWaterMark(topic string, partition int32, offset int64) *MockFetchResponse {
partitions := mfr.highWaterMarks[topic]
if partitions == nil {
partitions = make(map[int32]int64)
mfr.highWaterMarks[topic] = partitions
}
partitions[partition] = offset
return mfr
}
func (mfr *MockFetchResponse) For(reqBody versionedDecoder) encoder {
fetchRequest := reqBody.(*FetchRequest)
res := &FetchResponse{}
for topic, partitions := range fetchRequest.blocks {
for partition, block := range partitions {
initialOffset := block.fetchOffset
offset := initialOffset
maxOffset := initialOffset + int64(mfr.getMessageCount(topic, partition))
for i := 0; i < mfr.batchSize && offset < maxOffset; {
msg := mfr.getMessage(topic, partition, offset)
if msg != nil {
res.AddMessage(topic, partition, nil, msg, offset)
i++
}
offset++
}
fb := res.GetBlock(topic, partition)
if fb == nil {
res.AddError(topic, partition, ErrNoError)
fb = res.GetBlock(topic, partition)
}
fb.HighWaterMarkOffset = mfr.getHighWaterMark(topic, partition)
}
}
return res
}
func (mfr *MockFetchResponse) getMessage(topic string, partition int32, offset int64) Encoder {
partitions := mfr.messages[topic]
if partitions == nil {
return nil
}
messages := partitions[partition]
if messages == nil {
return nil
}
return messages[offset]
}
func (mfr *MockFetchResponse) getMessageCount(topic string, partition int32) int {
partitions := mfr.messages[topic]
if partitions == nil {
return 0
}
messages := partitions[partition]
if messages == nil {
return 0
}
return len(messages)
}
func (mfr *MockFetchResponse) getHighWaterMark(topic string, partition int32) int64 {
partitions := mfr.highWaterMarks[topic]
if partitions == nil {
return 0
}
return partitions[partition]
}
// MockConsumerMetadataResponse is a `ConsumerMetadataResponse` builder.
type MockConsumerMetadataResponse struct {
coordinators map[string]interface{}
t TestReporter
}
func NewMockConsumerMetadataResponse(t TestReporter) *MockConsumerMetadataResponse {
return &MockConsumerMetadataResponse{
coordinators: make(map[string]interface{}),
t: t,
}
}
func (mr *MockConsumerMetadataResponse) SetCoordinator(group string, broker *MockBroker) *MockConsumerMetadataResponse {
mr.coordinators[group] = broker
return mr
}
func (mr *MockConsumerMetadataResponse) SetError(group string, kerror KError) *MockConsumerMetadataResponse {
mr.coordinators[group] = kerror
return mr
}
func (mr *MockConsumerMetadataResponse) For(reqBody versionedDecoder) encoder {
req := reqBody.(*ConsumerMetadataRequest)
group := req.ConsumerGroup
res := &ConsumerMetadataResponse{}
v := mr.coordinators[group]
switch v := v.(type) {
case *MockBroker:
res.Coordinator = &Broker{id: v.BrokerID(), addr: v.Addr()}
case KError:
res.Err = v
}
return res
}
// MockOffsetCommitResponse is a `OffsetCommitResponse` builder.
type MockOffsetCommitResponse struct {
errors map[string]map[string]map[int32]KError
t TestReporter
}
func NewMockOffsetCommitResponse(t TestReporter) *MockOffsetCommitResponse {
return &MockOffsetCommitResponse{t: t}
}
func (mr *MockOffsetCommitResponse) SetError(group, topic string, partition int32, kerror KError) *MockOffsetCommitResponse {
if mr.errors == nil {
mr.errors = make(map[string]map[string]map[int32]KError)
}
topics := mr.errors[group]
if topics == nil {
topics = make(map[string]map[int32]KError)
mr.errors[group] = topics
}
partitions := topics[topic]
if partitions == nil {
partitions = make(map[int32]KError)
topics[topic] = partitions
}
partitions[partition] = kerror
return mr
}
func (mr *MockOffsetCommitResponse) For(reqBody versionedDecoder) encoder {
req := reqBody.(*OffsetCommitRequest)
group := req.ConsumerGroup
res := &OffsetCommitResponse{}
for topic, partitions := range req.blocks {
for partition := range partitions {
res.AddError(topic, partition, mr.getError(group, topic, partition))
}
}
return res
}
func (mr *MockOffsetCommitResponse) getError(group, topic string, partition int32) KError {
topics := mr.errors[group]
if topics == nil {
return ErrNoError
}
partitions := topics[topic]
if partitions == nil {
return ErrNoError
}
kerror, ok := partitions[partition]
if !ok {
return ErrNoError
}
return kerror
}
// MockProduceResponse is a `ProduceResponse` builder.
type MockProduceResponse struct {
errors map[string]map[int32]KError
t TestReporter
}
func NewMockProduceResponse(t TestReporter) *MockProduceResponse {
return &MockProduceResponse{t: t}
}
func (mr *MockProduceResponse) SetError(topic string, partition int32, kerror KError) *MockProduceResponse {
if mr.errors == nil {
mr.errors = make(map[string]map[int32]KError)
}
partitions := mr.errors[topic]
if partitions == nil {
partitions = make(map[int32]KError)
mr.errors[topic] = partitions
}
partitions[partition] = kerror
return mr
}
func (mr *MockProduceResponse) For(reqBody versionedDecoder) encoder {
req := reqBody.(*ProduceRequest)
res := &ProduceResponse{}
for topic, partitions := range req.msgSets {
for partition := range partitions {
res.AddTopicPartition(topic, partition, mr.getError(topic, partition))
}
}
return res
}
func (mr *MockProduceResponse) getError(topic string, partition int32) KError {
partitions := mr.errors[topic]
if partitions == nil {
return ErrNoError
}
kerror, ok := partitions[partition]
if !ok {
return ErrNoError
}
return kerror
}
// MockOffsetFetchResponse is a `OffsetFetchResponse` builder.
type MockOffsetFetchResponse struct {
offsets map[string]map[string]map[int32]*OffsetFetchResponseBlock
t TestReporter
}
func NewMockOffsetFetchResponse(t TestReporter) *MockOffsetFetchResponse {
return &MockOffsetFetchResponse{t: t}
}
func (mr *MockOffsetFetchResponse) SetOffset(group, topic string, partition int32, offset int64, metadata string, kerror KError) *MockOffsetFetchResponse {
if mr.offsets == nil {
mr.offsets = make(map[string]map[string]map[int32]*OffsetFetchResponseBlock)
}
topics := mr.offsets[group]
if topics == nil {
topics = make(map[string]map[int32]*OffsetFetchResponseBlock)
mr.offsets[group] = topics
}
partitions := topics[topic]
if partitions == nil {
partitions = make(map[int32]*OffsetFetchResponseBlock)
topics[topic] = partitions
}
partitions[partition] = &OffsetFetchResponseBlock{offset, metadata, kerror}
return mr
}
func (mr *MockOffsetFetchResponse) For(reqBody versionedDecoder) encoder {
req := reqBody.(*OffsetFetchRequest)
group := req.ConsumerGroup
res := &OffsetFetchResponse{}
for topic, partitions := range mr.offsets[group] {
for partition, block := range partitions {
res.AddBlock(topic, partition, block)
}
}
return res
}