Bringing up a Kafka-based Ordering Service¶
This document assumes that the reader generally knows how to set up a Kafka cluster and a ZooKeeper ensemble. The purpose of this guide is to identify the steps you need to take so as to have a set of Hyperledger Fabric ordering service nodes (OSNs) use your Kafka cluster and provide an ordering service to your blockchain network.
Each channel maps to a separate single-partition topic in Kafka. When an OSN receives transactions via the
Broadcast RPC, it checks to make sure that the broadcasting client has permissions to write on the channel, then relays (i.e. produces) those transactions to the appropriate partition in Kafka. This partition is also consumed by the OSN which groups the received transactions into blocks locally, persists them in its local ledger, and serves them to receiving clients via the
Deliver RPC. For low-level details, refer to the document that describes how we came to this design — Figure 8 is a schematic representation of the process described above.
Z be the number of nodes in the Kafka cluster and the ZooKeeper ensemble respectively:
- At a minimum,
Kshould be set to 4. (As we will explain in Step 4 below, this is the minimum number of nodes necessary in order to exhibit crash fault tolerance, i.e. with 4 brokers, you can have 1 broker go down, all channels will continue to be writeable and readable, and new channels can be created.)
Zwill either be 3, 5, or 7. It has to be an odd number to avoid split-brain scenarios, and larger than 1 in order to avoid single point of failures. Anything beyond 7 ZooKeeper servers is considered an overkill.
Then proceed as follows:
Orderers: Encode the Kafka-related information in the network’s genesis block. If you are using
configtx.yaml—or pick a preset profile for the system channel’s genesis block— so that:
Orderer.OrdererTypeis set to
Orderer.Kafka.Brokerscontains the address of at least two of the Kafka brokers in your cluster in
IP:portnotation. The list does not need to be exhaustive. (These are your bootstrap brokers.)
Orderers: Set the maximum block size. Each block will have at most Orderer.AbsoluteMaxBytes bytes (not including headers), a value that you can set in
configtx.yaml. Let the value you pick here be
Aand make note of it — it will affect how you configure your Kafka brokers in Step 6.
Orderers: Create the genesis block. Use
configtxgen. The settings you picked in Steps 3 and 4 above are system-wide settings, i.e. they apply across the network for all the OSNs. Make note of the genesis block’s location.
Kafka cluster: Configure your Kafka brokers appropriately. Ensure that every Kafka broker has these keys configured:
unclean.leader.election.enable = false— Data consistency is key in a blockchain environment. We cannot have a channel leader chosen outside of the in-sync replica set, or we run the risk of overwriting the offsets that the previous leader produced, and —as a result— rewrite the blockchain that the orderers produce.
min.insync.replicas = M— Where you pick a value
1 < M < N(see
default.replication.factorbelow). Data is considered committed when it is written to at least
Mreplicas (which are then considered in-sync and belong to the in-sync replica set, or ISR). In any other case, the write operation returns an error. Then:
- If up to
N-Mreplicas —out of the
Nthat the channel data is written to— become unavailable, operations proceed normally.
- If more replicas become unavailable, Kafka cannot maintain an ISR set of
M,so it stops accepting writes. Reads work without issues. The channel becomes writeable again when
Mreplicas get in-sync.
- If up to
default.replication.factor = N— Where you pick a value
N < K. A replication factor of
Nmeans that each channel will have its data replicated to
Nbrokers. These are the candidates for the ISR set of a channel. As we noted in the
min.insync.replicas sectionabove, not all of these brokers have to be available all the time.
Nshould be set strictly smaller to
Kbecause channel creations cannot go forward if less than
Nbrokers are up. So if you set
N = K, a single broker going down means that no new channels can be created on the blockchain network — the crash fault tolerance of the ordering service is non-existent.
Based on what we’ve described above, the minimum allowed values for
Nare 2 and 3 respectively. This configuration allows for the creation of new channels to go forward, and for all channels to continue to be writeable.
replica.fetch.max.bytesshould be set to a value larger than
A, the value you picked in
Orderer.AbsoluteMaxBytesin Step 4 above. Add some buffer to account for headers — 1 MiB is more than enough. The following condition applies:
Orderer.AbsoluteMaxBytes < replica.fetch.max.bytes <= message.max.bytes
(For completeness, we note that
message.max.bytesshould be strictly smaller to
socket.request.max.byteswhich is set by default to 100 MiB. If you wish to have blocks larger than 100 MiB you will need to edit the hard-coded value in
fabric/orderer/kafka/config.goand rebuild the binary from source. This is not advisable.)
log.retention.ms = -1. Until the ordering service adds support for pruning of the Kafka logs, you should disable time-based retention and prevent segments from expiring. (Size-based retention —see
log.retention.bytes— is disabled by default in Kafka at the time of this writing, so there’s no need to set it explicitly.)
Orderers: Point each OSN to the genesis block. Edit
orderer.yamlso that it points to the genesis block created in Step 5 above. (While at it, ensure all other keys in that YAML file are set appropriately.)
Orderers: Adjust polling intervals and timeouts. (Optional step.)
Kafka.Retrysection in the
orderer.yamlfile allows you to adjust the frequency of the metadata/producer/consumer requests, as well as the socket timeouts. (These are all settings you would expect to see in a Kafka producer or consumer.)
Additionally, when a new channel is created, or when an existing channel is reloaded (in case of a just-restarted orderer), the orderer interacts with the Kafka cluster in the following ways:
- It creates a Kafka producer (writer) for the Kafka partition that corresponds to the channel.
- It uses that producer to post a no-op
CONNECTmessage to that partition.
- It creates a Kafka consumer (reader) for that partition.
If any of these steps fail, you can adjust the frequency with which they are repeated. Specifically they will be re-attempted every
Kafka.Retry.ShortIntervalfor a total of
Kafka.Retry.ShortTotal, and then every
Kafka.Retry.LongIntervalfor a total of
Kafka.Retry.LongTotaluntil they succeed. Note that the orderer will be unable to write to or read from a channel until all of the steps above have been completed successfully.
Set up the OSNs and Kafka cluster so that they communicate over SSL. (Optional step, but highly recommended.) Refer to the Confluent guide for the Kafka cluster side of the equation, and set the keys under
orderer.yamlon every OSN accordingly.
Bring up the nodes in the following order: ZooKeeper ensemble, Kafka cluster, ordering service nodes.
- Preferred message size. In Step 4 above (see Steps section) you can also set the preferred size of blocks by setting the
Orderer.Batchsize.PreferredMaxByteskey. Kafka offers higher throughput when dealing with relatively small messages; aim for a value no bigger than 1 MiB.
- Using environment variables to override settings. When using the sample Kafka and Zookeeper Docker images provided with Fabric (see
images/zookeeperrespectively), you can override a Kafka broker or a ZooKeeper server’s settings by using environment variables. Replace the dots of the configuration key with underscores — e.g.
KAFKA_UNCLEAN_LEADER_ELECTION_ENABLE=falsewill allow you to override the default value of
unclean.leader.election.enable. The same applies to the OSNs for their local configuration, i.e. what can be set in
orderer.yaml. For example
ORDERER_KAFKA_RETRY_SHORTINTERVAL=1sallows you to override the default value for
Supported Kafka versions and upgrading¶
Fabric uses the sarama client library and vendors a version of it that supportes the following Kafka client versions:
The sample Kafka server image provided by Fabric contains Kafka server version
0.10.2.0. Out of the box, Fabric’s ordering service nodes default to configuring their embedded Kafka client to match this version. If you are not using the sample Kafka server image provided by Fabric, ensure that you configure a Kafka client version that is compatible with your Kafka server using the
Kafka.Version key in
Sample Docker Compose configuration files inline with the recommended settings above can be found under the
fabric/bddtests directory. Look for