For the latest stable version, please use Spring Framework 6.2.0! |
Overview
STOMP (Simple Text Oriented Messaging Protocol) was originally created for scripting languages (such as Ruby, Python, and Perl) to connect to enterprise message brokers. It is designed to address a minimal subset of commonly used messaging patterns. STOMP can be used over any reliable two-way streaming network protocol, such as TCP and WebSocket. Although STOMP is a text-oriented protocol, message payloads can be either text or binary.
STOMP is a frame-based protocol whose frames are modeled on HTTP. The following listing shows the structure of a STOMP frame:
COMMAND header1:value1 header2:value2 Body^@
Clients can use the SEND
or SUBSCRIBE
commands to send or subscribe for
messages, along with a destination
header that describes what the
message is about and who should receive it. This enables a simple
publish-subscribe mechanism that you can use to send messages through the broker
to other connected clients or to send messages to the server to request that
some work be performed.
When you use Spring’s STOMP support, the Spring WebSocket application acts
as the STOMP broker to clients. Messages are routed to @Controller
message-handling
methods or to a simple in-memory broker that keeps track of subscriptions and
broadcasts messages to subscribed users. You can also configure Spring to work
with a dedicated STOMP broker (such as RabbitMQ, ActiveMQ, and others) for the actual
broadcasting of messages. In that case, Spring maintains
TCP connections to the broker, relays messages to it, and passes messages
from it down to connected WebSocket clients. Thus, Spring web applications can
rely on unified HTTP-based security, common validation, and a familiar programming
model for message handling.
The following example shows a client subscribing to receive stock quotes, which
the server may emit periodically (for example, via a scheduled task that sends messages
through a SimpMessagingTemplate
to the broker):
SUBSCRIBE id:sub-1 destination:/topic/price.stock.* ^@
The following example shows a client that sends a trade request, which the server
can handle through an @MessageMapping
method:
SEND destination:/queue/trade content-type:application/json content-length:44 {"action":"BUY","ticker":"MMM","shares",44}^@
After the execution, the server can broadcast a trade confirmation message and details down to the client.
The meaning of a destination is intentionally left opaque in the STOMP spec. It can
be any string, and it is entirely up to STOMP servers to define the semantics and
the syntax of the destinations that they support. It is very common, however, for
destinations to be path-like strings where /topic/..
implies publish-subscribe
(one-to-many) and /queue/
implies point-to-point (one-to-one) message
exchanges.
STOMP servers can use the MESSAGE
command to broadcast messages to all subscribers.
The following example shows a server sending a stock quote to a subscribed client:
MESSAGE message-id:nxahklf6-1 subscription:sub-1 destination:/topic/price.stock.MMM {"ticker":"MMM","price":129.45}^@
A server cannot send unsolicited messages. All messages
from a server must be in response to a specific client subscription, and the
subscription
header of the server message must match the id
header of the
client subscription.
The preceding overview is intended to provide the most basic understanding of the STOMP protocol. We recommended reviewing the protocol specification in full.