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160 lines
6.8 KiB
160 lines
6.8 KiB
# Block and Transaction Broadcasting with ZeroMQ
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[ZeroMQ](https://zeromq.org/) is a lightweight wrapper around TCP
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connections, inter-process communication, and shared-memory,
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providing various message-oriented semantics such as publish/subscribe,
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request/reply, and push/pull.
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The Bitcoin Core daemon can be configured to act as a trusted "border
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router", implementing the bitcoin wire protocol and relay, making
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consensus decisions, maintaining the local blockchain database,
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broadcasting locally generated transactions into the network, and
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providing a queryable RPC interface to interact on a polled basis for
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requesting blockchain related data. However, there exists only a
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limited service to notify external software of events like the arrival
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of new blocks or transactions.
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The ZeroMQ facility implements a notification interface through a set
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of specific notifiers. Currently there are notifiers that publish
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blocks and transactions. This read-only facility requires only the
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connection of a corresponding ZeroMQ subscriber port in receiving
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software; it is not authenticated nor is there any two-way protocol
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involvement. Therefore, subscribers should validate the received data
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since it may be out of date, incomplete or even invalid.
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ZeroMQ sockets are self-connecting and self-healing; that is,
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connections made between two endpoints will be automatically restored
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after an outage, and either end may be freely started or stopped in
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any order.
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Because ZeroMQ is message oriented, subscribers receive transactions
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and blocks all-at-once and do not need to implement any sort of
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buffering or reassembly.
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## Prerequisites
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The ZeroMQ feature in Bitcoin Core requires the ZeroMQ API >= 4.0.0
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[libzmq](https://github.com/zeromq/libzmq/releases).
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For version information, see [dependencies.md](dependencies.md).
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Typically, it is packaged by distributions as something like
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*libzmq3-dev*. The C++ wrapper for ZeroMQ is *not* needed.
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In order to run the example Python client scripts in the `contrib/zmq/`
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directory, one must also install [PyZMQ](https://github.com/zeromq/pyzmq)
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(generally with `pip install pyzmq`), though this is not necessary for daemon
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operation.
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## Enabling
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By default, the ZeroMQ feature is automatically compiled in if the
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necessary prerequisites are found. To disable, use --disable-zmq
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during the *configure* step of building bitcoind:
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$ ./configure --disable-zmq (other options)
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To actually enable operation, one must set the appropriate options on
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the command line or in the configuration file.
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## Usage
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Currently, the following notifications are supported:
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-zmqpubhashtx=address
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-zmqpubhashblock=address
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-zmqpubrawblock=address
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-zmqpubrawtx=address
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-zmqpubsequence=address
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The socket type is PUB and the address must be a valid ZeroMQ socket
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address. The same address can be used in more than one notification.
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The same notification can be specified more than once.
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The option to set the PUB socket's outbound message high water mark
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(SNDHWM) may be set individually for each notification:
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-zmqpubhashtxhwm=n
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-zmqpubhashblockhwm=n
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-zmqpubrawblockhwm=n
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-zmqpubrawtxhwm=n
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-zmqpubsequencehwm=address
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The high water mark value must be an integer greater than or equal to 0.
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For instance:
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$ bitcoind -zmqpubhashtx=tcp://127.0.0.1:28332 \
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-zmqpubhashtx=tcp://192.168.1.2:28332 \
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-zmqpubhashblock="tcp://[::1]:28333" \
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-zmqpubrawtx=ipc:///tmp/bitcoind.tx.raw \
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-zmqpubhashtxhwm=10000
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Each PUB notification has a topic and body, where the header
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corresponds to the notification type. For instance, for the
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notification `-zmqpubhashtx` the topic is `hashtx` (no null
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terminator) and the body is the transaction hash (32
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bytes) for all but `sequence` topic. For `sequence`, the body
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is structured as the following based on the type of message:
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<32-byte hash>C : Blockhash connected
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<32-byte hash>D : Blockhash disconnected
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<32-byte hash>R<8-byte LE uint> : Transactionhash removed from mempool for non-block inclusion reason
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<32-byte hash>A<8-byte LE uint> : Transactionhash added mempool
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Where the 8-byte uints correspond to the mempool sequence number.
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These options can also be provided in bitcoin.conf.
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ZeroMQ endpoint specifiers for TCP (and others) are documented in the
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[ZeroMQ API](http://api.zeromq.org/4-0:_start).
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Client side, then, the ZeroMQ subscriber socket must have the
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ZMQ_SUBSCRIBE option set to one or either of these prefixes (for
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instance, just `hash`); without doing so will result in no messages
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arriving. Please see [`contrib/zmq/zmq_sub.py`](/contrib/zmq/zmq_sub.py) for a working example.
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The ZMQ_PUB socket's ZMQ_TCP_KEEPALIVE option is enabled. This means that
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the underlying SO_KEEPALIVE option is enabled when using a TCP transport.
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The effective TCP keepalive values are managed through the underlying
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operating system configuration and must be configured prior to connection establishment.
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For example, when running on GNU/Linux, one might use the following
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to lower the keepalive setting to 10 minutes:
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sudo sysctl -w net.ipv4.tcp_keepalive_time=600
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Setting the keepalive values appropriately for your operating environment may
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improve connectivity in situations where long-lived connections are silently
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dropped by network middle boxes.
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Also, the socket's ZMQ_IPV6 option is enabled to accept connections from IPv6
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hosts as well. If needed, this option has to be set on the client side too.
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## Remarks
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From the perspective of bitcoind, the ZeroMQ socket is write-only; PUB
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sockets don't even have a read function. Thus, there is no state
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introduced into bitcoind directly. Furthermore, no information is
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broadcast that wasn't already received from the public P2P network.
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No authentication or authorization is done on connecting clients; it
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is assumed that the ZeroMQ port is exposed only to trusted entities,
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using other means such as firewalling.
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Note that for `*block` topics, when the block chain tip changes,
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a reorganisation may occur and just the tip will be notified.
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It is up to the subscriber to retrieve the chain from the last known
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block to the new tip. Also note that no notification will occur if the tip
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was in the active chain--as would be the case after calling invalidateblock RPC.
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In contrast, the `sequence` topic publishes all block connections and
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disconnections.
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There are several possibilities that ZMQ notification can get lost
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during transmission depending on the communication type you are
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using. Bitcoind appends an up-counting sequence number to each
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notification which allows listeners to detect lost notifications.
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The `sequence` topic refers specifically to the mempool sequence
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number, which is also published along with all mempool events. This
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is a different sequence value than in ZMQ itself in order to allow a total
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ordering of mempool events to be constructed.
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