package sarama import ( "errors" "fmt" "math/rand" "strconv" "sync" "time" ) // ClusterAdmin is the administrative client for Kafka, which supports managing and inspecting topics, // brokers, configurations and ACLs. The minimum broker version required is 0.10.0.0. // Methods with stricter requirements will specify the minimum broker version required. // You MUST call Close() on a client to avoid leaks type ClusterAdmin interface { // Creates a new topic. This operation is supported by brokers with version 0.10.1.0 or higher. // It may take several seconds after CreateTopic returns success for all the brokers // to become aware that the topic has been created. During this time, listTopics // may not return information about the new topic.The validateOnly option is supported from version 0.10.2.0. CreateTopic(topic string, detail *TopicDetail, validateOnly bool) error // List the topics available in the cluster with the default options. ListTopics() (map[string]TopicDetail, error) // Describe some topics in the cluster. DescribeTopics(topics []string) (metadata []*TopicMetadata, err error) // Delete a topic. It may take several seconds after the DeleteTopic to returns success // and for all the brokers to become aware that the topics are gone. // During this time, listTopics may continue to return information about the deleted topic. // If delete.topic.enable is false on the brokers, deleteTopic will mark // the topic for deletion, but not actually delete them. // This operation is supported by brokers with version 0.10.1.0 or higher. DeleteTopic(topic string) error // Increase the number of partitions of the topics according to the corresponding values. // If partitions are increased for a topic that has a key, the partition logic or ordering of // the messages will be affected. It may take several seconds after this method returns // success for all the brokers to become aware that the partitions have been created. // During this time, ClusterAdmin#describeTopics may not return information about the // new partitions. This operation is supported by brokers with version 1.0.0 or higher. CreatePartitions(topic string, count int32, assignment [][]int32, validateOnly bool) error // Alter the replica assignment for partitions. // This operation is supported by brokers with version 2.4.0.0 or higher. AlterPartitionReassignments(topic string, assignment [][]int32) error // Provides info on ongoing partitions replica reassignments. // This operation is supported by brokers with version 2.4.0.0 or higher. ListPartitionReassignments(topics string, partitions []int32) (topicStatus map[string]map[int32]*PartitionReplicaReassignmentsStatus, err error) // Delete records whose offset is smaller than the given offset of the corresponding partition. // This operation is supported by brokers with version 0.11.0.0 or higher. DeleteRecords(topic string, partitionOffsets map[int32]int64) error // Get the configuration for the specified resources. // The returned configuration includes default values and the Default is true // can be used to distinguish them from user supplied values. // Config entries where ReadOnly is true cannot be updated. // The value of config entries where Sensitive is true is always nil so // sensitive information is not disclosed. // This operation is supported by brokers with version 0.11.0.0 or higher. DescribeConfig(resource ConfigResource) ([]ConfigEntry, error) // Update the configuration for the specified resources with the default options. // This operation is supported by brokers with version 0.11.0.0 or higher. // The resources with their configs (topic is the only resource type with configs // that can be updated currently Updates are not transactional so they may succeed // for some resources while fail for others. The configs for a particular resource are updated automatically. AlterConfig(resourceType ConfigResourceType, name string, entries map[string]*string, validateOnly bool) error // Creates access control lists (ACLs) which are bound to specific resources. // This operation is not transactional so it may succeed for some ACLs while fail for others. // If you attempt to add an ACL that duplicates an existing ACL, no error will be raised, but // no changes will be made. This operation is supported by brokers with version 0.11.0.0 or higher. CreateACL(resource Resource, acl Acl) error // Lists access control lists (ACLs) according to the supplied filter. // it may take some time for changes made by createAcls or deleteAcls to be reflected in the output of ListAcls // This operation is supported by brokers with version 0.11.0.0 or higher. ListAcls(filter AclFilter) ([]ResourceAcls, error) // Deletes access control lists (ACLs) according to the supplied filters. // This operation is not transactional so it may succeed for some ACLs while fail for others. // This operation is supported by brokers with version 0.11.0.0 or higher. DeleteACL(filter AclFilter, validateOnly bool) ([]MatchingAcl, error) // List the consumer groups available in the cluster. ListConsumerGroups() (map[string]string, error) // Describe the given consumer groups. DescribeConsumerGroups(groups []string) ([]*GroupDescription, error) // List the consumer group offsets available in the cluster. ListConsumerGroupOffsets(group string, topicPartitions map[string][]int32) (*OffsetFetchResponse, error) // Delete a consumer group. DeleteConsumerGroup(group string) error // Get information about the nodes in the cluster DescribeCluster() (brokers []*Broker, controllerID int32, err error) // Get information about all log directories on the given set of brokers DescribeLogDirs(brokers []int32) (map[int32][]DescribeLogDirsResponseDirMetadata, error) // Close shuts down the admin and closes underlying client. Close() error } type clusterAdmin struct { client Client conf *Config } // NewClusterAdmin creates a new ClusterAdmin using the given broker addresses and configuration. func NewClusterAdmin(addrs []string, conf *Config) (ClusterAdmin, error) { client, err := NewClient(addrs, conf) if err != nil { return nil, err } return NewClusterAdminFromClient(client) } // NewClusterAdminFromClient creates a new ClusterAdmin using the given client. // Note that underlying client will also be closed on admin's Close() call. func NewClusterAdminFromClient(client Client) (ClusterAdmin, error) { //make sure we can retrieve the controller _, err := client.Controller() if err != nil { return nil, err } ca := &clusterAdmin{ client: client, conf: client.Config(), } return ca, nil } func (ca *clusterAdmin) Close() error { return ca.client.Close() } func (ca *clusterAdmin) Controller() (*Broker, error) { return ca.client.Controller() } func (ca *clusterAdmin) refreshController() (*Broker, error) { return ca.client.RefreshController() } // isErrNoController returns `true` if the given error type unwraps to an // `ErrNotController` response from Kafka func isErrNoController(err error) bool { switch e := err.(type) { case *TopicError: return e.Err == ErrNotController case *TopicPartitionError: return e.Err == ErrNotController case KError: return e == ErrNotController } return false } // retryOnError will repeatedly call the given (error-returning) func in the // case that its response is non-nil and retriable (as determined by the // provided retriable func) up to the maximum number of tries permitted by // the admin client configuration func (ca *clusterAdmin) retryOnError(retriable func(error) bool, fn func() error) error { var err error for attempt := 0; attempt < ca.conf.Admin.Retry.Max; attempt++ { err = fn() if err == nil || !retriable(err) { return err } Logger.Printf( "admin/request retrying after %dms... (%d attempts remaining)\n", ca.conf.Admin.Retry.Backoff/time.Millisecond, ca.conf.Admin.Retry.Max-attempt) time.Sleep(ca.conf.Admin.Retry.Backoff) continue } return err } func (ca *clusterAdmin) CreateTopic(topic string, detail *TopicDetail, validateOnly bool) error { if topic == "" { return ErrInvalidTopic } if detail == nil { return errors.New("you must specify topic details") } topicDetails := make(map[string]*TopicDetail) topicDetails[topic] = detail request := &CreateTopicsRequest{ TopicDetails: topicDetails, ValidateOnly: validateOnly, Timeout: ca.conf.Admin.Timeout, } if ca.conf.Version.IsAtLeast(V0_11_0_0) { request.Version = 1 } if ca.conf.Version.IsAtLeast(V1_0_0_0) { request.Version = 2 } return ca.retryOnError(isErrNoController, func() error { b, err := ca.Controller() if err != nil { return err } rsp, err := b.CreateTopics(request) if err != nil { return err } topicErr, ok := rsp.TopicErrors[topic] if !ok { return ErrIncompleteResponse } if topicErr.Err != ErrNoError { if topicErr.Err == ErrNotController { _, _ = ca.refreshController() } return topicErr } return nil }) } func (ca *clusterAdmin) DescribeTopics(topics []string) (metadata []*TopicMetadata, err error) { controller, err := ca.Controller() if err != nil { return nil, err } request := &MetadataRequest{ Topics: topics, AllowAutoTopicCreation: false, } if ca.conf.Version.IsAtLeast(V1_0_0_0) { request.Version = 5 } else if ca.conf.Version.IsAtLeast(V0_11_0_0) { request.Version = 4 } response, err := controller.GetMetadata(request) if err != nil { return nil, err } return response.Topics, nil } func (ca *clusterAdmin) DescribeCluster() (brokers []*Broker, controllerID int32, err error) { controller, err := ca.Controller() if err != nil { return nil, int32(0), err } request := &MetadataRequest{ Topics: []string{}, } if ca.conf.Version.IsAtLeast(V0_10_0_0) { request.Version = 1 } response, err := controller.GetMetadata(request) if err != nil { return nil, int32(0), err } return response.Brokers, response.ControllerID, nil } func (ca *clusterAdmin) findBroker(id int32) (*Broker, error) { brokers := ca.client.Brokers() for _, b := range brokers { if b.ID() == id { return b, nil } } return nil, fmt.Errorf("could not find broker id %d", id) } func (ca *clusterAdmin) findAnyBroker() (*Broker, error) { brokers := ca.client.Brokers() if len(brokers) > 0 { index := rand.Intn(len(brokers)) return brokers[index], nil } return nil, errors.New("no available broker") } func (ca *clusterAdmin) ListTopics() (map[string]TopicDetail, error) { // In order to build TopicDetails we need to first get the list of all // topics using a MetadataRequest and then get their configs using a // DescribeConfigsRequest request. To avoid sending many requests to the // broker, we use a single DescribeConfigsRequest. // Send the all-topic MetadataRequest b, err := ca.findAnyBroker() if err != nil { return nil, err } _ = b.Open(ca.client.Config()) metadataReq := &MetadataRequest{} metadataResp, err := b.GetMetadata(metadataReq) if err != nil { return nil, err } topicsDetailsMap := make(map[string]TopicDetail) var describeConfigsResources []*ConfigResource for _, topic := range metadataResp.Topics { topicDetails := TopicDetail{ NumPartitions: int32(len(topic.Partitions)), } if len(topic.Partitions) > 0 { topicDetails.ReplicaAssignment = map[int32][]int32{} for _, partition := range topic.Partitions { topicDetails.ReplicaAssignment[partition.ID] = partition.Replicas } topicDetails.ReplicationFactor = int16(len(topic.Partitions[0].Replicas)) } topicsDetailsMap[topic.Name] = topicDetails // we populate the resources we want to describe from the MetadataResponse topicResource := ConfigResource{ Type: TopicResource, Name: topic.Name, } describeConfigsResources = append(describeConfigsResources, &topicResource) } // Send the DescribeConfigsRequest describeConfigsReq := &DescribeConfigsRequest{ Resources: describeConfigsResources, } if ca.conf.Version.IsAtLeast(V1_1_0_0) { describeConfigsReq.Version = 1 } if ca.conf.Version.IsAtLeast(V2_0_0_0) { describeConfigsReq.Version = 2 } describeConfigsResp, err := b.DescribeConfigs(describeConfigsReq) if err != nil { return nil, err } for _, resource := range describeConfigsResp.Resources { topicDetails := topicsDetailsMap[resource.Name] topicDetails.ConfigEntries = make(map[string]*string) for _, entry := range resource.Configs { // only include non-default non-sensitive config // (don't actually think topic config will ever be sensitive) if entry.Default || entry.Sensitive { continue } topicDetails.ConfigEntries[entry.Name] = &entry.Value } topicsDetailsMap[resource.Name] = topicDetails } return topicsDetailsMap, nil } func (ca *clusterAdmin) DeleteTopic(topic string) error { if topic == "" { return ErrInvalidTopic } request := &DeleteTopicsRequest{ Topics: []string{topic}, Timeout: ca.conf.Admin.Timeout, } if ca.conf.Version.IsAtLeast(V0_11_0_0) { request.Version = 1 } return ca.retryOnError(isErrNoController, func() error { b, err := ca.Controller() if err != nil { return err } rsp, err := b.DeleteTopics(request) if err != nil { return err } topicErr, ok := rsp.TopicErrorCodes[topic] if !ok { return ErrIncompleteResponse } if topicErr != ErrNoError { if topicErr == ErrNotController { _, _ = ca.refreshController() } return topicErr } return nil }) } func (ca *clusterAdmin) CreatePartitions(topic string, count int32, assignment [][]int32, validateOnly bool) error { if topic == "" { return ErrInvalidTopic } topicPartitions := make(map[string]*TopicPartition) topicPartitions[topic] = &TopicPartition{Count: count, Assignment: assignment} request := &CreatePartitionsRequest{ TopicPartitions: topicPartitions, Timeout: ca.conf.Admin.Timeout, } return ca.retryOnError(isErrNoController, func() error { b, err := ca.Controller() if err != nil { return err } rsp, err := b.CreatePartitions(request) if err != nil { return err } topicErr, ok := rsp.TopicPartitionErrors[topic] if !ok { return ErrIncompleteResponse } if topicErr.Err != ErrNoError { if topicErr.Err == ErrNotController { _, _ = ca.refreshController() } return topicErr } return nil }) } func (ca *clusterAdmin) AlterPartitionReassignments(topic string, assignment [][]int32) error { if topic == "" { return ErrInvalidTopic } request := &AlterPartitionReassignmentsRequest{ TimeoutMs: int32(60000), Version: int16(0), } for i := 0; i < len(assignment); i++ { request.AddBlock(topic, int32(i), assignment[i]) } return ca.retryOnError(isErrNoController, func() error { b, err := ca.Controller() if err != nil { return err } errs := make([]error, 0) rsp, err := b.AlterPartitionReassignments(request) if err != nil { errs = append(errs, err) } else { if rsp.ErrorCode > 0 { errs = append(errs, errors.New(rsp.ErrorCode.Error())) } for topic, topicErrors := range rsp.Errors { for partition, partitionError := range topicErrors { if partitionError.errorCode != ErrNoError { errStr := fmt.Sprintf("[%s-%d]: %s", topic, partition, partitionError.errorCode.Error()) errs = append(errs, errors.New(errStr)) } } } } if len(errs) > 0 { return ErrReassignPartitions{MultiError{&errs}} } return nil }) } func (ca *clusterAdmin) ListPartitionReassignments(topic string, partitions []int32) (topicStatus map[string]map[int32]*PartitionReplicaReassignmentsStatus, err error) { if topic == "" { return nil, ErrInvalidTopic } request := &ListPartitionReassignmentsRequest{ TimeoutMs: int32(60000), Version: int16(0), } request.AddBlock(topic, partitions) b, err := ca.Controller() if err != nil { return nil, err } _ = b.Open(ca.client.Config()) rsp, err := b.ListPartitionReassignments(request) if err == nil && rsp != nil { return rsp.TopicStatus, nil } else { return nil, err } } func (ca *clusterAdmin) DeleteRecords(topic string, partitionOffsets map[int32]int64) error { if topic == "" { return ErrInvalidTopic } partitionPerBroker := make(map[*Broker][]int32) for partition := range partitionOffsets { broker, err := ca.client.Leader(topic, partition) if err != nil { return err } if _, ok := partitionPerBroker[broker]; ok { partitionPerBroker[broker] = append(partitionPerBroker[broker], partition) } else { partitionPerBroker[broker] = []int32{partition} } } errs := make([]error, 0) for broker, partitions := range partitionPerBroker { topics := make(map[string]*DeleteRecordsRequestTopic) recordsToDelete := make(map[int32]int64) for _, p := range partitions { recordsToDelete[p] = partitionOffsets[p] } topics[topic] = &DeleteRecordsRequestTopic{PartitionOffsets: recordsToDelete} request := &DeleteRecordsRequest{ Topics: topics, Timeout: ca.conf.Admin.Timeout, } rsp, err := broker.DeleteRecords(request) if err != nil { errs = append(errs, err) } else { deleteRecordsResponseTopic, ok := rsp.Topics[topic] if !ok { errs = append(errs, ErrIncompleteResponse) } else { for _, deleteRecordsResponsePartition := range deleteRecordsResponseTopic.Partitions { if deleteRecordsResponsePartition.Err != ErrNoError { errs = append(errs, errors.New(deleteRecordsResponsePartition.Err.Error())) } } } } } if len(errs) > 0 { return ErrDeleteRecords{MultiError{&errs}} } //todo since we are dealing with couple of partitions it would be good if we return slice of errors //for each partition instead of one error return nil } // Returns a bool indicating whether the resource request needs to go to a // specific broker func dependsOnSpecificNode(resource ConfigResource) bool { return (resource.Type == BrokerResource && resource.Name != "") || resource.Type == BrokerLoggerResource } func (ca *clusterAdmin) DescribeConfig(resource ConfigResource) ([]ConfigEntry, error) { var entries []ConfigEntry var resources []*ConfigResource resources = append(resources, &resource) request := &DescribeConfigsRequest{ Resources: resources, } if ca.conf.Version.IsAtLeast(V1_1_0_0) { request.Version = 1 } if ca.conf.Version.IsAtLeast(V2_0_0_0) { request.Version = 2 } var ( b *Broker err error ) // DescribeConfig of broker/broker logger must be sent to the broker in question if dependsOnSpecificNode(resource) { id, _ := strconv.Atoi(resource.Name) b, err = ca.findBroker(int32(id)) } else { b, err = ca.findAnyBroker() } if err != nil { return nil, err } _ = b.Open(ca.client.Config()) rsp, err := b.DescribeConfigs(request) if err != nil { return nil, err } for _, rspResource := range rsp.Resources { if rspResource.Name == resource.Name { if rspResource.ErrorMsg != "" { return nil, errors.New(rspResource.ErrorMsg) } if rspResource.ErrorCode != 0 { return nil, KError(rspResource.ErrorCode) } for _, cfgEntry := range rspResource.Configs { entries = append(entries, *cfgEntry) } } } return entries, nil } func (ca *clusterAdmin) AlterConfig(resourceType ConfigResourceType, name string, entries map[string]*string, validateOnly bool) error { var resources []*AlterConfigsResource resources = append(resources, &AlterConfigsResource{ Type: resourceType, Name: name, ConfigEntries: entries, }) request := &AlterConfigsRequest{ Resources: resources, ValidateOnly: validateOnly, } var ( b *Broker err error ) // AlterConfig of broker/broker logger must be sent to the broker in question if dependsOnSpecificNode(ConfigResource{Name: name, Type: resourceType}) { id, _ := strconv.Atoi(name) b, err = ca.findBroker(int32(id)) } else { b, err = ca.findAnyBroker() } if err != nil { return err } _ = b.Open(ca.client.Config()) rsp, err := b.AlterConfigs(request) if err != nil { return err } for _, rspResource := range rsp.Resources { if rspResource.Name == name { if rspResource.ErrorMsg != "" { return errors.New(rspResource.ErrorMsg) } if rspResource.ErrorCode != 0 { return KError(rspResource.ErrorCode) } } } return nil } func (ca *clusterAdmin) CreateACL(resource Resource, acl Acl) error { var acls []*AclCreation acls = append(acls, &AclCreation{resource, acl}) request := &CreateAclsRequest{AclCreations: acls} if ca.conf.Version.IsAtLeast(V2_0_0_0) { request.Version = 1 } b, err := ca.Controller() if err != nil { return err } _, err = b.CreateAcls(request) return err } func (ca *clusterAdmin) ListAcls(filter AclFilter) ([]ResourceAcls, error) { request := &DescribeAclsRequest{AclFilter: filter} if ca.conf.Version.IsAtLeast(V2_0_0_0) { request.Version = 1 } b, err := ca.Controller() if err != nil { return nil, err } rsp, err := b.DescribeAcls(request) if err != nil { return nil, err } var lAcls []ResourceAcls for _, rAcl := range rsp.ResourceAcls { lAcls = append(lAcls, *rAcl) } return lAcls, nil } func (ca *clusterAdmin) DeleteACL(filter AclFilter, validateOnly bool) ([]MatchingAcl, error) { var filters []*AclFilter filters = append(filters, &filter) request := &DeleteAclsRequest{Filters: filters} if ca.conf.Version.IsAtLeast(V2_0_0_0) { request.Version = 1 } b, err := ca.Controller() if err != nil { return nil, err } rsp, err := b.DeleteAcls(request) if err != nil { return nil, err } var mAcls []MatchingAcl for _, fr := range rsp.FilterResponses { for _, mACL := range fr.MatchingAcls { mAcls = append(mAcls, *mACL) } } return mAcls, nil } func (ca *clusterAdmin) DescribeConsumerGroups(groups []string) (result []*GroupDescription, err error) { groupsPerBroker := make(map[*Broker][]string) for _, group := range groups { controller, err := ca.client.Coordinator(group) if err != nil { return nil, err } groupsPerBroker[controller] = append(groupsPerBroker[controller], group) } for broker, brokerGroups := range groupsPerBroker { response, err := broker.DescribeGroups(&DescribeGroupsRequest{ Groups: brokerGroups, }) if err != nil { return nil, err } result = append(result, response.Groups...) } return result, nil } func (ca *clusterAdmin) ListConsumerGroups() (allGroups map[string]string, err error) { allGroups = make(map[string]string) // Query brokers in parallel, since we have to query *all* brokers brokers := ca.client.Brokers() groupMaps := make(chan map[string]string, len(brokers)) errors := make(chan error, len(brokers)) wg := sync.WaitGroup{} for _, b := range brokers { wg.Add(1) go func(b *Broker, conf *Config) { defer wg.Done() _ = b.Open(conf) // Ensure that broker is opened response, err := b.ListGroups(&ListGroupsRequest{}) if err != nil { errors <- err return } groups := make(map[string]string) for group, typ := range response.Groups { groups[group] = typ } groupMaps <- groups }(b, ca.conf) } wg.Wait() close(groupMaps) close(errors) for groupMap := range groupMaps { for group, protocolType := range groupMap { allGroups[group] = protocolType } } // Intentionally return only the first error for simplicity err = <-errors return } func (ca *clusterAdmin) ListConsumerGroupOffsets(group string, topicPartitions map[string][]int32) (*OffsetFetchResponse, error) { coordinator, err := ca.client.Coordinator(group) if err != nil { return nil, err } request := &OffsetFetchRequest{ ConsumerGroup: group, partitions: topicPartitions, } if ca.conf.Version.IsAtLeast(V0_10_2_0) { request.Version = 2 } else if ca.conf.Version.IsAtLeast(V0_8_2_2) { request.Version = 1 } return coordinator.FetchOffset(request) } func (ca *clusterAdmin) DeleteConsumerGroup(group string) error { coordinator, err := ca.client.Coordinator(group) if err != nil { return err } request := &DeleteGroupsRequest{ Groups: []string{group}, } resp, err := coordinator.DeleteGroups(request) if err != nil { return err } groupErr, ok := resp.GroupErrorCodes[group] if !ok { return ErrIncompleteResponse } if groupErr != ErrNoError { return groupErr } return nil } func (ca *clusterAdmin) DescribeLogDirs(brokerIds []int32) (allLogDirs map[int32][]DescribeLogDirsResponseDirMetadata, err error) { allLogDirs = make(map[int32][]DescribeLogDirsResponseDirMetadata) // Query brokers in parallel, since we may have to query multiple brokers logDirsMaps := make(chan map[int32][]DescribeLogDirsResponseDirMetadata, len(brokerIds)) errors := make(chan error, len(brokerIds)) wg := sync.WaitGroup{} for _, b := range brokerIds { wg.Add(1) broker, err := ca.findBroker(b) if err != nil { Logger.Printf("Unable to find broker with ID = %v\n", b) continue } go func(b *Broker, conf *Config) { defer wg.Done() _ = b.Open(conf) // Ensure that broker is opened response, err := b.DescribeLogDirs(&DescribeLogDirsRequest{}) if err != nil { errors <- err return } logDirs := make(map[int32][]DescribeLogDirsResponseDirMetadata) logDirs[b.ID()] = response.LogDirs logDirsMaps <- logDirs }(broker, ca.conf) } wg.Wait() close(logDirsMaps) close(errors) for logDirsMap := range logDirsMaps { for id, logDirs := range logDirsMap { allLogDirs[id] = logDirs } } // Intentionally return only the first error for simplicity err = <-errors return }