Configuring and operating a Raft ordering service¶
Audience: Raft ordering node admins
For a high level overview of the concept of ordering and how the supported ordering service implementations (including Raft) work at a high level, check out our conceptual documentation on the Ordering Service.
To learn about the process of setting up an ordering node — including the creation of a local MSP and the creation of a genesis block — check out our documentation on Setting up an ordering node.
While every Raft node must be added to the system channel, a node does not need to be added to every application channel. Additionally, you can remove and add a node from a channel dynamically without affecting the other nodes, a process described in the Reconfiguration section below.
Raft nodes identify each other using TLS pinning, so in order to impersonate a Raft node, an attacker needs to obtain the private key of its TLS certificate. As a result, it is not possible to run a Raft node without a valid TLS configuration.
A Raft cluster is configured in two planes:
- Local configuration: Governs node specific aspects, such as TLS communication, replication behavior, and file storage.
- Channel configuration: Defines the membership of the Raft cluster for the corresponding channel, as well as protocol specific parameters such as heartbeat frequency, leader timeouts, and more.
Recall, each channel has its own instance of a Raft protocol running. Thus, a
Raft node must be referenced in the configuration of each channel it belongs to
by adding its server and client TLS certificates (in
PEM format) to the channel
config. This ensures that when other nodes receive a message from it, they can
securely confirm the identity of the node that sent the message.
The following section from
configtx.yaml shows three Raft nodes (also called
“consenters”) in the channel:
- Host: raft0.example.com
- Host: raft1.example.com
- Host: raft2.example.com
Note: an orderer will be listed as a consenter in the system channel as well as any application channels they”re joined to.
When the channel config block is created, the
configtxgen tool reads the paths
to the TLS certificates, and replaces the paths with the corresponding bytes of
orderer.yaml has two configuration sections that are relevant for Raft
Cluster, which determines the TLS communication configuration. And consensus, which determines where Write Ahead Logs and Snapshots are stored.
By default, the Raft service is running on the same gRPC server as the client facing server (which is used to send transactions or pull blocks), but it can be configured to have a separate gRPC server with a separate port.
This is useful for cases where you want TLS certificates issued by the organizational CAs, but used only by the cluster nodes to communicate among each other, and TLS certificates issued by a public TLS CA for the client facing API.
ClientPrivateKey: The file path of the client TLS certificate and corresponding private key.
ListenPort: The port the cluster listens on. If blank, the port is the same port as the orderer general port (
ListenAddress: The address the cluster service is listening on.
ServerPrivateKey: The TLS server certificate key pair which is used when the cluster service is running on a separate gRPC server (different port).
SendBufferSize: Regulates the number of messages in the egress buffer.
be either set together or unset together.
If they are unset, they are inherited from the general TLS section,
There are also hidden configuration parameters for
general.cluster which can be
used to further fine tune the cluster communication or replication mechanisms:
RPCTimeout: Specify the timeouts of creating connections and establishing streams.
ReplicationBufferSize: the maximum number of bytes that can be allocated for each in-memory buffer used for block replication from other cluster nodes. Each channel has its own memory buffer. Defaults to
PullTimeout: the maximum duration the ordering node will wait for a block to be received before it aborts. Defaults to five seconds.
ReplicationRetryTimeout: The maximum duration the ordering node will wait between two consecutive attempts. Defaults to five seconds.
ReplicationBackgroundRefreshInterval: the time between two consecutive attempts to replicate existing channels that this node was added to, or channels that this node failed to replicate in the past. Defaults to five minutes.
TLSHandshakeTimeShift: If the TLS certificates of the ordering nodes expire and are not replaced in time (see TLS certificate rotation below), communication between them cannot be established, and it will be impossible to send new transactions to the ordering service. To recover from such a scenario, it is possible to make TLS handshakes between ordering nodes consider the time to be shifted backwards a given amount that is configured to
TLSHandshakeTimeShift. This setting only applies when a separate cluster listener is in use. If the cluster service is sharing the orderer”s main gRPC server, then instead specify
WALDir: the location at which Write Ahead Logs for
etcd/raftare stored. Each channel will have its own subdirectory named after the channel ID.
SnapDir: specifies the location at which snapshots for
etcd/raftare stored. Each channel will have its own subdirectory named after the channel ID.
There is also a hidden configuration parameter that can be set by adding it to
the consensus section in the
EvictionSuspicion: The cumulative period of time of channel eviction suspicion that triggers the node to pull blocks from other nodes and see if it has been evicted from the channel in order to confirm its suspicion. If the suspicion is confirmed (the inspected block doesn”t contain the node”s TLS certificate), the node halts its operation for that channel. A node suspects its channel eviction when it doesn”t know about any elected leader nor can be elected as leader in the channel. Defaults to 10 minutes.
Apart from the (already discussed) consenters, the Raft channel configuration has
Options section which relates to protocol specific knobs. It is currently
not possible to change these values dynamically while a node is running. The
node have to be reconfigured and restarted.
The only exceptions is
SnapshotIntervalSize, which can be adjusted at runtime.
Note: It is recommended to avoid changing the following values, as a misconfiguration
might lead to a state where a leader cannot be elected at all (i.e, if the
ElectionTick are extremely low). Situations where a leader
cannot be elected are impossible to resolve, as leaders are required to make
changes. Because of such dangers, we suggest not tuning these parameters for most
TickInterval: The time interval between two
ElectionTick: The number of
Node.Tickinvocations that must pass between elections. That is, if a follower does not receive any message from the leader of current term before
ElectionTickhas elapsed, it will become candidate and start an election.
ElectionTickmust be greater than
HeartbeatTick: The number of
Node.Tickinvocations that must pass between heartbeats. That is, a leader sends heartbeat messages to maintain its leadership every
MaxInflightBlocks: Limits the max number of in-flight append blocks during optimistic replication phase.
SnapshotIntervalSize: Defines number of bytes per which a snapshot is taken.
The Raft orderer supports dynamic (meaning, while the channel is being serviced) addition and removal of nodes as long as only one node is added or removed at a time. Note that your cluster must be operational and able to achieve consensus before you attempt to reconfigure it. For instance, if you have three nodes, and two nodes fail, you will not be able to reconfigure your cluster to remove those nodes. Similarly, if you have one failed node in a channel with three nodes, you should not attempt to rotate a certificate, as this would induce a second fault. As a rule, you should never attempt any configuration changes to the Raft consenters, such as adding or removing a consenter, or rotating a consenter”s certificate unless all consenters are online and healthy.
If you do decide to change these parameters, it is recommended to only attempt such a change during a maintenance cycle. Problems are most likely to occur when a configuration is attempted in clusters with only a few nodes while a node is down. For example, if you have three nodes in your consenter set and one of them is down, it means you have two out of three nodes alive. If you extend the cluster to four nodes while in this state, you will have only two out of four nodes alive, which is not a quorum. The fourth node won”t be able to onboard because nodes can only onboard to functioning clusters (unless the total size of the cluster is one or two).
So by extending a cluster of three nodes to four nodes (while only two are alive) you are effectively stuck until the original offline node is resurrected.
Adding a new node to a Raft cluster is done by:
- Adding the TLS certificates of the new node to the channel through a channel configuration update transaction. Note: the new node must be added to the system channel before being added to one or more application channels.
- Fetching the latest config block of the system channel from an orderer node that”s part of the system channel.
- Ensuring that the node that will be added is part of the system channel by checking that the config block that was fetched includes the certificate of (soon to be) added node.
- Starting the new Raft node with the path to the config block in the
- Waiting for the Raft node to replicate the blocks from existing nodes for all channels its certificates have been added to. After this step has been completed, the node begins servicing the channel.
- Adding the endpoint of the newly added Raft node to the channel configuration of all channels.
It is possible to add a node that is already running (and participates in some channels already) to a channel while the node itself is running. To do this, simply add the node’s certificate to the channel config of the channel. The node will autonomously detect its addition to the new channel (the default value here is five minutes, but if you want the node to detect the new channel more quickly, reboot the node) and will pull the channel blocks from an orderer in the channel, and then start the Raft instance for that chain.
After it has successfully done so, the channel configuration can be updated to include the endpoint of the new Raft orderer.
Removing a node from a Raft cluster is done by:
- Removing its endpoint from the channel config for all channels, including the system channel controlled by the orderer admins.
- Removing its entry (identified by its certificates) from the channel configuration for all channels. Again, this includes the system channel.
- Shut down the node.
Removing a node from a specific channel, but keeping it servicing other channels is done by:
- Removing its endpoint from the channel config for the channel.
- Removing its entry (identified by its certificates) from the channel configuration.
- The second phase causes:
- The remaining orderer nodes in the channel to cease communicating with the removed orderer node in the context of the removed channel. They might still be communicating on other channels.
- The node that is removed from the channel would autonomously detect its
removal either immediately or after
EvictionSuspiciontime has passed (10 minutes by default) and will shut down its Raft instance.
TLS certificate rotation for an orderer node¶
All TLS certificates have an expiration date that is determined by the issuer. These expiration dates can range from 10 years from the date of issuance to as little as a few months, so check with your issuer. Before the expiration date, you will need to rotate these certificates on the node itself and every channel the node is joined to, including the system channel.
For each channel the node participates in:
- Update the channel configuration with the new certificates.
- Replace its certificates in the file system of the node.
- Restart the node.
Because a node can only have a single TLS certificate key pair, the node will be unable to service channels its new certificates have not been added to during the update process, degrading the capacity of fault tolerance. Because of this, once the certificate rotation process has been started, it should be completed as quickly as possible.
If for some reason the rotation of the TLS certificates has started but cannot complete in all channels, it is advised to rotate TLS certificates back to what they were and attempt the rotation later.
For a description of the Operations Service and how to set it up, check out our documentation on the Operations Service.
For a list at the metrics that are gathered by the Operations Service, check out our reference material on metrics.
While the metrics you prioritize will have a lot to do with your particular use case and configuration, there are two metrics in particular you might want to monitor:
consensus_etcdraft_is_leader: identifies which node in the cluster is currently leader. If no nodes have this set, you have lost quorum.
consensus_etcdraft_data_persist_duration: indicates how long write operations to the Raft cluster”s persistent write ahead log take. For protocol safety, messages must be persisted durably, calling
fsyncwhere appropriate, before they can be shared with the consenter set. If this value begins to climb, this node may not be able to participate in consensus (which could lead to a service interruption for this node and possibly the network).
consensus_etcdraft_active_nodes: these channel metrics help track the «active» nodes (which, as it sounds, are the nodes that are currently contributing to the cluster, as compared to the total number of nodes in the cluster). If the number of active nodes falls below a majority of the nodes in the cluster, quorum will be lost and the ordering service will stop processing blocks on the channel.
- The more stress you put on your nodes, the more you might have to change certain parameters. As with any system, computer or mechanical, stress can lead to a drag in performance. As we noted in the conceptual documentation, leader elections in Raft are triggered when follower nodes do not receive either a «heartbeat» messages or an «append» message that carries data from the leader for a certain amount of time. Because Raft nodes share the same communication layer across channels (this does not mean they share data — they do not!), if a Raft node is part of the consenter set in many channels, you might want to lengthen the amount of time it takes to trigger an election to avoid inadvertent leader elections.