<?xml version = "1.0"?> <!-- Copyright Notice ================ Copyright (c) 2006-2008 Cisco Systems, Credit Suisse, Deutsche Boerse Systems, Envoy Technologies, Inc., Goldman Sachs, IONA Technologies PLC, iMatix Corporation, JPMorgan Chase Bank Inc. N.A, Novell, Rabbit Technologies Ltd., Red Hat, Inc., TWIST Process Innovations Ltd, WS02 Inc. and 29West Inc. All rights reserved. License ======= Cisco Systems, Credit Suisse, Deutsche Boerse Systems, Envoy Technologies, Inc., Goldman Sachs, IONA Technologies PLC, iMatix Corporation, JPMorgan Chase Bank Inc. N.A, Novell, Rabbit Technologies Ltd., Red Hat, Inc., TWIST Process Innovations Ltd, WS02, Inc. and 29West Inc. (collectively, the "Authors") each hereby grants to you a worldwide, perpetual, royalty-free, nontransferable, nonexclusive license to (i) copy, display, distribute and implement the Advanced Messaging Queue Protocol ("AMQP") Specification and (ii) the Licensed Claims that are held by the Authors, all for the purpose of implementing the Advanced Messaging Queue Protocol Specification. Your license and any rights under this Agreement will terminate immediately without notice from any Author if you bring any claim, suit, demand, or action related to the Advanced Messaging Queue Protocol Specification against any Author. Upon termination, you shall destroy all copies of the Advanced Messaging Queue Protocol Specification in your possession or control. As used hereunder, "Licensed Claims" means those claims of a patent or patent application, throughout the world, excluding design patents and design registrations, owned or controlled, or that can be sublicensed without fee and in compliance with the requirements of this Agreement, by an Author or its affiliates now or at any future time and which would necessarily be infringed by implementation of the Advanced Messaging Queue Protocol Specification. A claim is necessarily infringed hereunder only when it is not possible to avoid infringing it because there is no plausible non-infringing alternative for implementing the required portions of the Advanced Messaging Queue Protocol Specification. Notwithstanding the foregoing, Licensed Claims shall not include any claims other than as set forth above even if contained in the same patent as Licensed Claims; or that read solely on any implementations of any portion of the Advanced Messaging Queue Protocol Specification that are not required by the Advanced Messaging Queue ProtocolSpecification, or that, if licensed, would require a payment of royalties by the licensor to unaffiliated third parties. Moreover, Licensed Claims shall not include (i) any enabling technologies that may be necessary to make or use any Licensed Product but are not themselves expressly set forth in the Advanced Messaging Queue Protocol Specification (e.g., semiconductor manufacturing technology, compiler technology, object oriented technology, networking technology, operating system technology, and the like); or (ii) the implementation of other published standards developed elsewhere and merely referred to in the body of the Advanced Messaging Queue Protocol Specification, or (iii) any Licensed Product and any combinations thereof the purpose or function of which is not required for compliance with the Advanced Messaging Queue Protocol Specification. For purposes of this definition, the Advanced Messaging Queue Protocol Specification shall be deemed to include both architectural and interconnection requirements essential for interoperability and may also include supporting source code artifacts where such architectural, interconnection requirements and source code artifacts are expressly identified as being required or documentation to achieve compliance with the Advanced Messaging Queue Protocol Specification. As used hereunder, "Licensed Products" means only those specific portions of products (hardware, software or combinations thereof) that implement and are compliant with all relevant portions of the Advanced Messaging Queue Protocol Specification. The following disclaimers, which you hereby also acknowledge as to any use you may make of the Advanced Messaging Queue Protocol Specification: THE ADVANCED MESSAGING QUEUE PROTOCOL SPECIFICATION IS PROVIDED "AS IS," AND THE AUTHORS MAKE NO REPRESENTATIONS OR WARRANTIES, EXPRESS OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, NON-INFRINGEMENT, OR TITLE; THAT THE CONTENTS OF THE ADVANCED MESSAGING QUEUE PROTOCOL SPECIFICATION ARE SUITABLE FOR ANY PURPOSE; NOR THAT THE IMPLEMENTATION OF THE ADVANCED MESSAGING QUEUE PROTOCOL SPECIFICATION WILL NOT INFRINGE ANY THIRD PARTY PATENTS, COPYRIGHTS, TRADEMARKS OR OTHER RIGHTS. THE AUTHORS WILL NOT BE LIABLE FOR ANY DIRECT, INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF OR RELATING TO ANY USE, IMPLEMENTATION OR DISTRIBUTION OF THE ADVANCED MESSAGING QUEUE PROTOCOL SPECIFICATION. The name and trademarks of the Authors may NOT be used in any manner, including advertising or publicity pertaining to the Advanced Messaging Queue Protocol Specification or its contents without specific, written prior permission. Title to copyright in the Advanced Messaging Queue Protocol Specification will at all times remain with the Authors. No other rights are granted by implication, estoppel or otherwise. Upon termination of your license or rights under this Agreement, you shall destroy all copies of the Advanced Messaging Queue Protocol Specification in your possession or control. Trademarks ========== JPMorgan, JPMorgan Chase, Chase, the JPMorgan Chase logo and the Octagon Symbol are trademarks of JPMorgan Chase & Co. IMATIX and the iMatix logo are trademarks of iMatix Corporation sprl. IONA, IONA Technologies, and the IONA logos are trademarks of IONA Technologies PLC and/or its subsidiaries. LINUX is a trademark of Linus Torvalds. RED HAT and JBOSS are registered trademarks of Red Hat, Inc. in the US and other countries. Java, all Java-based trademarks and OpenOffice.org are trademarks of Sun Microsystems, Inc. in the United States, other countries, or both. Other company, product, or service names may be trademarks or service marks of others. Links to full AMQP specification: ================================= http://www.amqp.org --> <!-- <!DOCTYPE amqp SYSTEM "amqp.dtd"> --> <!-- XML Notes We use entities to indicate repetition; attributes to indicate properties. We use the 'name' attribute as an identifier, usually within the context of the surrounding entities. We use spaces to seperate words in names, so that we can print names in their natural form depending on the context - underlines for source code, hyphens for written text, etc. We do not enforce any particular validation mechanism but we support all mechanisms. The protocol definition conforms to a formal grammar that is published seperately in several technologies. --> <amqp major="0" minor="9" revision="1" port="5672" comment="AMQ Protocol version 0-9-1"> <!-- ====================================================== == CONSTANTS ====================================================== --> <!-- Frame types --> <constant name="frame-method" value="1"/> <constant name="frame-header" value="2"/> <constant name="frame-body" value="3"/> <constant name="frame-heartbeat" value="8"/> <!-- Protocol constants --> <constant name="frame-min-size" value="4096"/> <constant name="frame-end" value="206"/> <!-- Reply codes --> <constant name="reply-success" value="200"> <doc> Indicates that the method completed successfully. This reply code is reserved for future use - the current protocol design does not use positive confirmation and reply codes are sent only in case of an error. </doc> </constant> <constant name="content-too-large" value="311" class="soft-error"> <doc> The client attempted to transfer content larger than the server could accept at the present time. The client may retry at a later time. </doc> </constant> <constant name="no-consumers" value="313" class="soft-error"> <doc> When the exchange cannot deliver to a consumer when the immediate flag is set. As a result of pending data on the queue or the absence of any consumers of the queue. </doc> </constant> <constant name="connection-forced" value="320" class="hard-error"> <doc> An operator intervened to close the connection for some reason. The client may retry at some later date. </doc> </constant> <constant name="invalid-path" value="402" class="hard-error"> <doc> The client tried to work with an unknown virtual host. </doc> </constant> <constant name="access-refused" value="403" class="soft-error"> <doc> The client attempted to work with a server entity to which it has no access due to security settings. </doc> </constant> <constant name="not-found" value="404" class="soft-error"> <doc> The client attempted to work with a server entity that does not exist. </doc> </constant> <constant name="resource-locked" value="405" class="soft-error"> <doc> The client attempted to work with a server entity to which it has no access because another client is working with it. </doc> </constant> <constant name="precondition-failed" value="406" class="soft-error"> <doc> The client requested a method that was not allowed because some precondition failed. </doc> </constant> <constant name="frame-error" value="501" class="hard-error"> <doc> The sender sent a malformed frame that the recipient could not decode. This strongly implies a programming error in the sending peer. </doc> </constant> <constant name="syntax-error" value="502" class="hard-error"> <doc> The sender sent a frame that contained illegal values for one or more fields. This strongly implies a programming error in the sending peer. </doc> </constant> <constant name="command-invalid" value="503" class="hard-error"> <doc> The client sent an invalid sequence of frames, attempting to perform an operation that was considered invalid by the server. This usually implies a programming error in the client. </doc> </constant> <constant name="channel-error" value="504" class="hard-error"> <doc> The client attempted to work with a channel that had not been correctly opened. This most likely indicates a fault in the client layer. </doc> </constant> <constant name="unexpected-frame" value="505" class="hard-error"> <doc> The peer sent a frame that was not expected, usually in the context of a content header and body. This strongly indicates a fault in the peer's content processing. </doc> </constant> <constant name="resource-error" value="506" class="hard-error"> <doc> The server could not complete the method because it lacked sufficient resources. This may be due to the client creating too many of some type of entity. </doc> </constant> <constant name="not-allowed" value="530" class="hard-error"> <doc> The client tried to work with some entity in a manner that is prohibited by the server, due to security settings or by some other criteria. </doc> </constant> <constant name="not-implemented" value="540" class="hard-error"> <doc> The client tried to use functionality that is not implemented in the server. </doc> </constant> <constant name="internal-error" value="541" class="hard-error"> <doc> The server could not complete the method because of an internal error. The server may require intervention by an operator in order to resume normal operations. </doc> </constant> <!-- ====================================================== == DOMAIN TYPES ====================================================== --> <domain name="class-id" type="short"/> <domain name="consumer-tag" type="shortstr" label="consumer tag"> <doc> Identifier for the consumer, valid within the current channel. </doc> </domain> <domain name="delivery-tag" type="longlong" label="server-assigned delivery tag"> <doc> The server-assigned and channel-specific delivery tag </doc> <rule name="channel-local"> <doc> The delivery tag is valid only within the channel from which the message was received. I.e. a client MUST NOT receive a message on one channel and then acknowledge it on another. </doc> </rule> <rule name="non-zero"> <doc> The server MUST NOT use a zero value for delivery tags. Zero is reserved for client use, meaning "all messages so far received". </doc> </rule> </domain> <domain name="exchange-name" type="shortstr" label="exchange name"> <doc> The exchange name is a client-selected string that identifies the exchange for publish methods. </doc> <assert check="length" value="127"/> <assert check="regexp" value="^[a-zA-Z0-9-_.:]*$"/> </domain> <domain name="method-id" type="short"/> <domain name="no-ack" type="bit" label="no acknowledgement needed"> <doc> If this field is set the server does not expect acknowledgements for messages. That is, when a message is delivered to the client the server assumes the delivery will succeed and immediately dequeues it. This functionality may increase performance but at the cost of reliability. Messages can get lost if a client dies before they are delivered to the application. </doc> </domain> <domain name="no-local" type="bit" label="do not deliver own messages"> <doc> If the no-local field is set the server will not send messages to the connection that published them. </doc> </domain> <domain name="no-wait" type="bit" label="do not send reply method"> <doc> If set, the server will not respond to the method. The client should not wait for a reply method. If the server could not complete the method it will raise a channel or connection exception. </doc> </domain> <domain name="path" type="shortstr"> <doc> Unconstrained. </doc> <assert check="notnull"/> <assert check="length" value="127"/> </domain> <domain name="peer-properties" type="table"> <doc> This table provides a set of peer properties, used for identification, debugging, and general information. </doc> </domain> <domain name="queue-name" type="shortstr" label="queue name"> <doc> The queue name identifies the queue within the vhost. In methods where the queue name may be blank, and that has no specific significance, this refers to the 'current' queue for the channel, meaning the last queue that the client declared on the channel. If the client did not declare a queue, and the method needs a queue name, this will result in a 502 (syntax error) channel exception. </doc> <assert check="length" value="127"/> <assert check="regexp" value="^[a-zA-Z0-9-_.:]*$"/> </domain> <domain name="redelivered" type="bit" label="message is being redelivered"> <doc> This indicates that the message has been previously delivered to this or another client. </doc> <rule name="implementation"> <doc> The server SHOULD try to signal redelivered messages when it can. When redelivering a message that was not successfully acknowledged, the server SHOULD deliver it to the original client if possible. </doc> <doc type="scenario"> Declare a shared queue and publish a message to the queue. Consume the message using explicit acknowledgements, but do not acknowledge the message. Close the connection, reconnect, and consume from the queue again. The message should arrive with the redelivered flag set. </doc> </rule> <rule name="hinting"> <doc> The client MUST NOT rely on the redelivered field but should take it as a hint that the message may already have been processed. A fully robust client must be able to track duplicate received messages on non-transacted, and locally-transacted channels. </doc> </rule> </domain> <domain name="message-count" type="long" label="number of messages in queue"> <doc> The number of messages in the queue, which will be zero for newly-declared queues. This is the number of messages present in the queue, and committed if the channel on which they were published is transacted, that are not waiting acknowledgement. </doc> </domain> <domain name="reply-code" type="short" label="reply code from server"> <doc> The reply code. The AMQ reply codes are defined as constants at the start of this formal specification. </doc> <assert check="notnull"/> </domain> <domain name="reply-text" type="shortstr" label="localised reply text"> <doc> The localised reply text. This text can be logged as an aid to resolving issues. </doc> <assert check="notnull"/> </domain> <!-- Elementary domains --> <domain name="bit" type="bit" label="single bit"/> <domain name="octet" type="octet" label="single octet"/> <domain name="short" type="short" label="16-bit integer"/> <domain name="long" type="long" label="32-bit integer"/> <domain name="longlong" type="longlong" label="64-bit integer"/> <domain name="shortstr" type="shortstr" label="short string"/> <domain name="longstr" type="longstr" label="long string"/> <domain name="timestamp" type="timestamp" label="64-bit timestamp"/> <domain name="table" type="table" label="field table"/> <!-- == CONNECTION ======================================================= --> <class name="connection" handler="connection" index="10" label="work with socket connections"> <doc> The connection class provides methods for a client to establish a network connection to a server, and for both peers to operate the connection thereafter. </doc> <doc type="grammar"> connection = open-connection *use-connection close-connection open-connection = C:protocol-header S:START C:START-OK *challenge S:TUNE C:TUNE-OK C:OPEN S:OPEN-OK challenge = S:SECURE C:SECURE-OK use-connection = *channel close-connection = C:CLOSE S:CLOSE-OK / S:CLOSE C:CLOSE-OK </doc> <chassis name="server" implement="MUST"/> <chassis name="client" implement="MUST"/> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="start" synchronous="1" index="10" label="start connection negotiation"> <doc> This method starts the connection negotiation process by telling the client the protocol version that the server proposes, along with a list of security mechanisms which the client can use for authentication. </doc> <rule name="protocol-name"> <doc> If the server cannot support the protocol specified in the protocol header, it MUST respond with a valid protocol header and then close the socket connection. </doc> <doc type="scenario"> The client sends a protocol header containing an invalid protocol name. The server MUST respond by sending a valid protocol header and then closing the connection. </doc> </rule> <rule name="server-support"> <doc> The server MUST provide a protocol version that is lower than or equal to that requested by the client in the protocol header. </doc> <doc type="scenario"> The client requests a protocol version that is higher than any valid implementation, e.g. 2.0. The server must respond with a protocol header indicating its supported protocol version, e.g. 1.0. </doc> </rule> <rule name="client-support"> <doc> If the client cannot handle the protocol version suggested by the server it MUST close the socket connection without sending any further data. </doc> <doc type="scenario"> The server sends a protocol version that is lower than any valid implementation, e.g. 0.1. The client must respond by closing the connection without sending any further data. </doc> </rule> <chassis name="client" implement="MUST"/> <response name="start-ok"/> <field name="version-major" domain="octet" label="protocol major version"> <doc> The major version number can take any value from 0 to 99 as defined in the AMQP specification. </doc> </field> <field name="version-minor" domain="octet" label="protocol minor version"> <doc> The minor version number can take any value from 0 to 99 as defined in the AMQP specification. </doc> </field> <field name="server-properties" domain="peer-properties" label="server properties"> <rule name="required-fields"> <doc> The properties SHOULD contain at least these fields: "host", specifying the server host name or address, "product", giving the name of the server product, "version", giving the name of the server version, "platform", giving the name of the operating system, "copyright", if appropriate, and "information", giving other general information. </doc> <doc type="scenario"> Client connects to server and inspects the server properties. It checks for the presence of the required fields. </doc> </rule> </field> <field name="mechanisms" domain="longstr" label="available security mechanisms"> <doc> A list of the security mechanisms that the server supports, delimited by spaces. </doc> <assert check="notnull"/> </field> <field name="locales" domain="longstr" label="available message locales"> <doc> A list of the message locales that the server supports, delimited by spaces. The locale defines the language in which the server will send reply texts. </doc> <rule name="required-support"> <doc> The server MUST support at least the en_US locale. </doc> <doc type="scenario"> Client connects to server and inspects the locales field. It checks for the presence of the required locale(s). </doc> </rule> <assert check="notnull"/> </field> </method> <method name="start-ok" synchronous="1" index="11" label="select security mechanism and locale"> <doc> This method selects a SASL security mechanism. </doc> <chassis name="server" implement="MUST"/> <field name="client-properties" domain="peer-properties" label="client properties"> <rule name="required-fields"> <!-- This rule is not testable from the client side --> <doc> The properties SHOULD contain at least these fields: "product", giving the name of the client product, "version", giving the name of the client version, "platform", giving the name of the operating system, "copyright", if appropriate, and "information", giving other general information. </doc> </rule> </field> <field name="mechanism" domain="shortstr" label="selected security mechanism"> <doc> A single security mechanisms selected by the client, which must be one of those specified by the server. </doc> <rule name="security"> <doc> The client SHOULD authenticate using the highest-level security profile it can handle from the list provided by the server. </doc> </rule> <rule name="validity"> <doc> If the mechanism field does not contain one of the security mechanisms proposed by the server in the Start method, the server MUST close the connection without sending any further data. </doc> <doc type="scenario"> Client connects to server and sends an invalid security mechanism. The server must respond by closing the connection (a socket close, with no connection close negotiation). </doc> </rule> <assert check="notnull"/> </field> <field name="response" domain="longstr" label="security response data"> <doc> A block of opaque data passed to the security mechanism. The contents of this data are defined by the SASL security mechanism. </doc> <assert check="notnull"/> </field> <field name="locale" domain="shortstr" label="selected message locale"> <doc> A single message locale selected by the client, which must be one of those specified by the server. </doc> <assert check="notnull"/> </field> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="secure" synchronous="1" index="20" label="security mechanism challenge"> <doc> The SASL protocol works by exchanging challenges and responses until both peers have received sufficient information to authenticate each other. This method challenges the client to provide more information. </doc> <chassis name="client" implement="MUST"/> <response name="secure-ok"/> <field name="challenge" domain="longstr" label="security challenge data"> <doc> Challenge information, a block of opaque binary data passed to the security mechanism. </doc> </field> </method> <method name="secure-ok" synchronous="1" index="21" label="security mechanism response"> <doc> This method attempts to authenticate, passing a block of SASL data for the security mechanism at the server side. </doc> <chassis name="server" implement="MUST"/> <field name="response" domain="longstr" label="security response data"> <doc> A block of opaque data passed to the security mechanism. The contents of this data are defined by the SASL security mechanism. </doc> <assert check="notnull"/> </field> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="tune" synchronous="1" index="30" label="propose connection tuning parameters"> <doc> This method proposes a set of connection configuration values to the client. The client can accept and/or adjust these. </doc> <chassis name="client" implement="MUST"/> <response name="tune-ok"/> <field name="channel-max" domain="short" label="proposed maximum channels"> <doc> Specifies highest channel number that the server permits. Usable channel numbers are in the range 1..channel-max. Zero indicates no specified limit. </doc> </field> <field name="frame-max" domain="long" label="proposed maximum frame size"> <doc> The largest frame size that the server proposes for the connection, including frame header and end-byte. The client can negotiate a lower value. Zero means that the server does not impose any specific limit but may reject very large frames if it cannot allocate resources for them. </doc> <rule name="minimum"> <doc> Until the frame-max has been negotiated, both peers MUST accept frames of up to frame-min-size octets large, and the minimum negotiated value for frame-max is also frame-min-size. </doc> <doc type="scenario"> Client connects to server and sends a large properties field, creating a frame of frame-min-size octets. The server must accept this frame. </doc> </rule> </field> <field name="heartbeat" domain="short" label="desired heartbeat delay"> <doc> The delay, in seconds, of the connection heartbeat that the server wants. Zero means the server does not want a heartbeat. </doc> </field> </method> <method name="tune-ok" synchronous="1" index="31" label="negotiate connection tuning parameters"> <doc> This method sends the client's connection tuning parameters to the server. Certain fields are negotiated, others provide capability information. </doc> <chassis name="server" implement="MUST"/> <field name="channel-max" domain="short" label="negotiated maximum channels"> <doc> The maximum total number of channels that the client will use per connection. </doc> <rule name="upper-limit"> <doc> If the client specifies a channel max that is higher than the value provided by the server, the server MUST close the connection without attempting a negotiated close. The server may report the error in some fashion to assist implementors. </doc> </rule> <assert check="notnull"/> <assert check="le" method="tune" field="channel-max"/> </field> <field name="frame-max" domain="long" label="negotiated maximum frame size"> <doc> The largest frame size that the client and server will use for the connection. Zero means that the client does not impose any specific limit but may reject very large frames if it cannot allocate resources for them. Note that the frame-max limit applies principally to content frames, where large contents can be broken into frames of arbitrary size. </doc> <rule name="minimum"> <doc> Until the frame-max has been negotiated, both peers MUST accept frames of up to frame-min-size octets large, and the minimum negotiated value for frame-max is also frame-min-size. </doc> </rule> <rule name="upper-limit"> <doc> If the client specifies a frame max that is higher than the value provided by the server, the server MUST close the connection without attempting a negotiated close. The server may report the error in some fashion to assist implementors. </doc> </rule> </field> <field name="heartbeat" domain="short" label="desired heartbeat delay"> <doc> The delay, in seconds, of the connection heartbeat that the client wants. Zero means the client does not want a heartbeat. </doc> </field> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="open" synchronous="1" index="40" label="open connection to virtual host"> <doc> This method opens a connection to a virtual host, which is a collection of resources, and acts to separate multiple application domains within a server. The server may apply arbitrary limits per virtual host, such as the number of each type of entity that may be used, per connection and/or in total. </doc> <chassis name="server" implement="MUST"/> <response name="open-ok"/> <field name="virtual-host" domain="path" label="virtual host name"> <doc> The name of the virtual host to work with. </doc> <rule name="separation"> <doc> If the server supports multiple virtual hosts, it MUST enforce a full separation of exchanges, queues, and all associated entities per virtual host. An application, connected to a specific virtual host, MUST NOT be able to access resources of another virtual host. </doc> </rule> <rule name="security"> <doc> The server SHOULD verify that the client has permission to access the specified virtual host. </doc> </rule> </field> <!-- Deprecated: "capabilities", must be zero --> <field name="reserved-1" type="shortstr" reserved="1"/> <!-- Deprecated: "insist", must be zero --> <field name="reserved-2" type="bit" reserved="1"/> </method> <method name="open-ok" synchronous="1" index="41" label="signal that connection is ready"> <doc> This method signals to the client that the connection is ready for use. </doc> <chassis name="client" implement="MUST"/> <!-- Deprecated: "known-hosts", must be zero --> <field name="reserved-1" type="shortstr" reserved="1"/> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="close" synchronous="1" index="50" label="request a connection close"> <doc> This method indicates that the sender wants to close the connection. This may be due to internal conditions (e.g. a forced shut-down) or due to an error handling a specific method, i.e. an exception. When a close is due to an exception, the sender provides the class and method id of the method which caused the exception. </doc> <rule name="stability"> <doc> After sending this method, any received methods except Close and Close-OK MUST be discarded. The response to receiving a Close after sending Close must be to send Close-Ok. </doc> </rule> <chassis name="client" implement="MUST"/> <chassis name="server" implement="MUST"/> <response name="close-ok"/> <field name="reply-code" domain="reply-code"/> <field name="reply-text" domain="reply-text"/> <field name="class-id" domain="class-id" label="failing method class"> <doc> When the close is provoked by a method exception, this is the class of the method. </doc> </field> <field name="method-id" domain="method-id" label="failing method ID"> <doc> When the close is provoked by a method exception, this is the ID of the method. </doc> </field> </method> <method name="close-ok" synchronous="1" index="51" label="confirm a connection close"> <doc> This method confirms a Connection.Close method and tells the recipient that it is safe to release resources for the connection and close the socket. </doc> <rule name="reporting"> <doc> A peer that detects a socket closure without having received a Close-Ok handshake method SHOULD log the error. </doc> </rule> <chassis name="client" implement="MUST"/> <chassis name="server" implement="MUST"/> </method> </class> <!-- == CHANNEL ========================================================== --> <class name="channel" handler="channel" index="20" label="work with channels"> <doc> The channel class provides methods for a client to establish a channel to a server and for both peers to operate the channel thereafter. </doc> <doc type="grammar"> channel = open-channel *use-channel close-channel open-channel = C:OPEN S:OPEN-OK use-channel = C:FLOW S:FLOW-OK / S:FLOW C:FLOW-OK / functional-class close-channel = C:CLOSE S:CLOSE-OK / S:CLOSE C:CLOSE-OK </doc> <chassis name="server" implement="MUST"/> <chassis name="client" implement="MUST"/> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="open" synchronous="1" index="10" label="open a channel for use"> <doc> This method opens a channel to the server. </doc> <rule name="state" on-failure="channel-error"> <doc> The client MUST NOT use this method on an already-opened channel. </doc> <doc type="scenario"> Client opens a channel and then reopens the same channel. </doc> </rule> <chassis name="server" implement="MUST"/> <response name="open-ok"/> <!-- Deprecated: "out-of-band", must be zero --> <field name="reserved-1" type="shortstr" reserved="1"/> </method> <method name="open-ok" synchronous="1" index="11" label="signal that the channel is ready"> <doc> This method signals to the client that the channel is ready for use. </doc> <chassis name="client" implement="MUST"/> <!-- Deprecated: "channel-id", must be zero --> <field name="reserved-1" type="longstr" reserved="1"/> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="flow" synchronous="1" index="20" label="enable/disable flow from peer"> <doc> This method asks the peer to pause or restart the flow of content data sent by a consumer. This is a simple flow-control mechanism that a peer can use to avoid overflowing its queues or otherwise finding itself receiving more messages than it can process. Note that this method is not intended for window control. It does not affect contents returned by Basic.Get-Ok methods. </doc> <rule name="initial-state"> <doc> When a new channel is opened, it is active (flow is active). Some applications assume that channels are inactive until started. To emulate this behaviour a client MAY open the channel, then pause it. </doc> </rule> <rule name="bidirectional"> <doc> When sending content frames, a peer SHOULD monitor the channel for incoming methods and respond to a Channel.Flow as rapidly as possible. </doc> </rule> <rule name="throttling"> <doc> A peer MAY use the Channel.Flow method to throttle incoming content data for internal reasons, for example, when exchanging data over a slower connection. </doc> </rule> <rule name="expected-behaviour"> <doc> The peer that requests a Channel.Flow method MAY disconnect and/or ban a peer that does not respect the request. This is to prevent badly-behaved clients from overwhelming a server. </doc> </rule> <chassis name="server" implement="MUST"/> <chassis name="client" implement="MUST"/> <response name="flow-ok"/> <field name="active" domain="bit" label="start/stop content frames"> <doc> If 1, the peer starts sending content frames. If 0, the peer stops sending content frames. </doc> </field> </method> <method name="flow-ok" index="21" label="confirm a flow method"> <doc> Confirms to the peer that a flow command was received and processed. </doc> <chassis name="server" implement="MUST"/> <chassis name="client" implement="MUST"/> <field name="active" domain="bit" label="current flow setting"> <doc> Confirms the setting of the processed flow method: 1 means the peer will start sending or continue to send content frames; 0 means it will not. </doc> </field> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="close" synchronous="1" index="40" label="request a channel close"> <doc> This method indicates that the sender wants to close the channel. This may be due to internal conditions (e.g. a forced shut-down) or due to an error handling a specific method, i.e. an exception. When a close is due to an exception, the sender provides the class and method id of the method which caused the exception. </doc> <rule name="stability"> <doc> After sending this method, any received methods except Close and Close-OK MUST be discarded. The response to receiving a Close after sending Close must be to send Close-Ok. </doc> </rule> <chassis name="client" implement="MUST"/> <chassis name="server" implement="MUST"/> <response name="close-ok"/> <field name="reply-code" domain="reply-code"/> <field name="reply-text" domain="reply-text"/> <field name="class-id" domain="class-id" label="failing method class"> <doc> When the close is provoked by a method exception, this is the class of the method. </doc> </field> <field name="method-id" domain="method-id" label="failing method ID"> <doc> When the close is provoked by a method exception, this is the ID of the method. </doc> </field> </method> <method name="close-ok" synchronous="1" index="41" label="confirm a channel close"> <doc> This method confirms a Channel.Close method and tells the recipient that it is safe to release resources for the channel. </doc> <rule name="reporting"> <doc> A peer that detects a socket closure without having received a Channel.Close-Ok handshake method SHOULD log the error. </doc> </rule> <chassis name="client" implement="MUST"/> <chassis name="server" implement="MUST"/> </method> </class> <!-- == EXCHANGE ========================================================= --> <class name="exchange" handler="channel" index="40" label="work with exchanges"> <doc> Exchanges match and distribute messages across queues. Exchanges can be configured in the server or declared at runtime. </doc> <doc type="grammar"> exchange = C:DECLARE S:DECLARE-OK / C:DELETE S:DELETE-OK </doc> <chassis name="server" implement="MUST"/> <chassis name="client" implement="MUST"/> <rule name="required-types"> <doc> The server MUST implement these standard exchange types: fanout, direct. </doc> <doc type="scenario"> Client attempts to declare an exchange with each of these standard types. </doc> </rule> <rule name="recommended-types"> <doc> The server SHOULD implement these standard exchange types: topic, headers. </doc> <doc type="scenario"> Client attempts to declare an exchange with each of these standard types. </doc> </rule> <rule name="required-instances"> <doc> The server MUST, in each virtual host, pre-declare an exchange instance for each standard exchange type that it implements, where the name of the exchange instance, if defined, is "amq." followed by the exchange type name. </doc> <doc> The server MUST, in each virtual host, pre-declare at least two direct exchange instances: one named "amq.direct", the other with no public name that serves as a default exchange for Publish methods. </doc> <doc type="scenario"> Client declares a temporary queue and attempts to bind to each required exchange instance ("amq.fanout", "amq.direct", "amq.topic", and "amq.headers" if those types are defined). </doc> </rule> <rule name="default-exchange"> <doc> The server MUST pre-declare a direct exchange with no public name to act as the default exchange for content Publish methods and for default queue bindings. </doc> <doc type="scenario"> Client checks that the default exchange is active by specifying a queue binding with no exchange name, and publishing a message with a suitable routing key but without specifying the exchange name, then ensuring that the message arrives in the queue correctly. </doc> </rule> <rule name="default-access"> <doc> The server MUST NOT allow clients to access the default exchange except by specifying an empty exchange name in the Queue.Bind and content Publish methods. </doc> </rule> <rule name="extensions"> <doc> The server MAY implement other exchange types as wanted. </doc> </rule> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="declare" synchronous="1" index="10" label="verify exchange exists, create if needed"> <doc> This method creates an exchange if it does not already exist, and if the exchange exists, verifies that it is of the correct and expected class. </doc> <rule name="minimum"> <doc> The server SHOULD support a minimum of 16 exchanges per virtual host and ideally, impose no limit except as defined by available resources. </doc> <doc type="scenario"> The client declares as many exchanges as it can until the server reports an error; the number of exchanges successfully declared must be at least sixteen. </doc> </rule> <chassis name="server" implement="MUST"/> <response name="declare-ok"/> <!-- Deprecated: "ticket", must be zero --> <field name="reserved-1" type="short" reserved="1"/> <field name="exchange" domain="exchange-name"> <rule name="reserved" on-failure="access-refused"> <doc> Exchange names starting with "amq." are reserved for pre-declared and standardised exchanges. The client MAY declare an exchange starting with "amq." if the passive option is set, or the exchange already exists. </doc> <doc type="scenario"> The client attempts to declare a non-existing exchange starting with "amq." and with the passive option set to zero. </doc> </rule> <rule name="syntax" on-failure="precondition-failed"> <doc> The exchange name consists of a non-empty sequence of these characters: letters, digits, hyphen, underscore, period, or colon. </doc> <doc type="scenario"> The client attempts to declare an exchange with an illegal name. </doc> </rule> <assert check="notnull"/> </field> <field name="type" domain="shortstr" label="exchange type"> <doc> Each exchange belongs to one of a set of exchange types implemented by the server. The exchange types define the functionality of the exchange - i.e. how messages are routed through it. It is not valid or meaningful to attempt to change the type of an existing exchange. </doc> <rule name="typed" on-failure="not-allowed"> <doc> Exchanges cannot be redeclared with different types. The client MUST not attempt to redeclare an existing exchange with a different type than used in the original Exchange.Declare method. </doc> <doc type="scenario"> TODO. </doc> </rule> <rule name="support" on-failure="command-invalid"> <doc> The client MUST NOT attempt to declare an exchange with a type that the server does not support. </doc> <doc type="scenario"> TODO. </doc> </rule> </field> <field name="passive" domain="bit" label="do not create exchange"> <doc> If set, the server will reply with Declare-Ok if the exchange already exists with the same name, and raise an error if not. The client can use this to check whether an exchange exists without modifying the server state. When set, all other method fields except name and no-wait are ignored. A declare with both passive and no-wait has no effect. Arguments are compared for semantic equivalence. </doc> <rule name="not-found"> <doc> If set, and the exchange does not already exist, the server MUST raise a channel exception with reply code 404 (not found). </doc> <doc type="scenario"> TODO. </doc> </rule> <rule name="equivalent"> <doc> If not set and the exchange exists, the server MUST check that the existing exchange has the same values for type, durable, and arguments fields. The server MUST respond with Declare-Ok if the requested exchange matches these fields, and MUST raise a channel exception if not. </doc> <doc type="scenario"> TODO. </doc> </rule> </field> <field name="durable" domain="bit" label="request a durable exchange"> <doc> If set when creating a new exchange, the exchange will be marked as durable. Durable exchanges remain active when a server restarts. Non-durable exchanges (transient exchanges) are purged if/when a server restarts. </doc> <rule name="support"> <doc> The server MUST support both durable and transient exchanges. </doc> <doc type="scenario"> TODO. </doc> </rule> </field> <!-- Deprecated: "auto-delete", must be zero --> <field name="reserved-2" type="bit" reserved="1"/> <!-- Deprecated: "internal", must be zero --> <field name="reserved-3" type="bit" reserved="1"/> <field name="no-wait" domain="no-wait"/> <field name="arguments" domain="table" label="arguments for declaration"> <doc> A set of arguments for the declaration. The syntax and semantics of these arguments depends on the server implementation. </doc> </field> </method> <method name="declare-ok" synchronous="1" index="11" label="confirm exchange declaration"> <doc> This method confirms a Declare method and confirms the name of the exchange, essential for automatically-named exchanges. </doc> <chassis name="client" implement="MUST"/> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="delete" synchronous="1" index="20" label="delete an exchange"> <doc> This method deletes an exchange. When an exchange is deleted all queue bindings on the exchange are cancelled. </doc> <chassis name="server" implement="MUST"/> <response name="delete-ok"/> <!-- Deprecated: "ticket", must be zero --> <field name="reserved-1" type="short" reserved="1"/> <field name="exchange" domain="exchange-name"> <rule name="exists" on-failure="not-found"> <doc> The client MUST NOT attempt to delete an exchange that does not exist. </doc> </rule> <assert check="notnull"/> </field> <field name="if-unused" domain="bit" label="delete only if unused"> <doc> If set, the server will only delete the exchange if it has no queue bindings. If the exchange has queue bindings the server does not delete it but raises a channel exception instead. </doc> <rule name="in-use" on-failure="precondition-failed"> <doc> The server MUST NOT delete an exchange that has bindings on it, if the if-unused field is true. </doc> <doc type="scenario"> The client declares an exchange, binds a queue to it, then tries to delete it setting if-unused to true. </doc> </rule> </field> <field name="no-wait" domain="no-wait"/> </method> <method name="delete-ok" synchronous="1" index="21" label="confirm deletion of an exchange"> <doc>This method confirms the deletion of an exchange.</doc> <chassis name="client" implement="MUST"/> </method> </class> <!-- == QUEUE ============================================================ --> <class name="queue" handler="channel" index="50" label="work with queues"> <doc> Queues store and forward messages. Queues can be configured in the server or created at runtime. Queues must be attached to at least one exchange in order to receive messages from publishers. </doc> <doc type="grammar"> queue = C:DECLARE S:DECLARE-OK / C:BIND S:BIND-OK / C:UNBIND S:UNBIND-OK / C:PURGE S:PURGE-OK / C:DELETE S:DELETE-OK </doc> <chassis name="server" implement="MUST"/> <chassis name="client" implement="MUST"/> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="declare" synchronous="1" index="10" label="declare queue, create if needed"> <doc> This method creates or checks a queue. When creating a new queue the client can specify various properties that control the durability of the queue and its contents, and the level of sharing for the queue. </doc> <rule name="default-binding"> <doc> The server MUST create a default binding for a newly-declared queue to the default exchange, which is an exchange of type 'direct' and use the queue name as the routing key. </doc> <doc type="scenario"> Client declares a new queue, and then without explicitly binding it to an exchange, attempts to send a message through the default exchange binding, i.e. publish a message to the empty exchange, with the queue name as routing key. </doc> </rule> <rule name="minimum-queues"> <doc> The server SHOULD support a minimum of 256 queues per virtual host and ideally, impose no limit except as defined by available resources. </doc> <doc type="scenario"> Client attempts to declare as many queues as it can until the server reports an error. The resulting count must at least be 256. </doc> </rule> <chassis name="server" implement="MUST"/> <response name="declare-ok"/> <!-- Deprecated: "ticket", must be zero --> <field name="reserved-1" type="short" reserved="1"/> <field name="queue" domain="queue-name"> <rule name="default-name"> <doc> The queue name MAY be empty, in which case the server MUST create a new queue with a unique generated name and return this to the client in the Declare-Ok method. </doc> <doc type="scenario"> Client attempts to declare several queues with an empty name. The client then verifies that the server-assigned names are unique and different. </doc> </rule> <rule name="reserved" on-failure="access-refused"> <doc> Queue names starting with "amq." are reserved for pre-declared and standardised queues. The client MAY declare a queue starting with "amq." if the passive option is set, or the queue already exists. </doc> <doc type="scenario"> The client attempts to declare a non-existing queue starting with "amq." and with the passive option set to zero. </doc> </rule> <rule name="syntax" on-failure="precondition-failed"> <doc> The queue name can be empty, or a sequence of these characters: letters, digits, hyphen, underscore, period, or colon. </doc> <doc type="scenario"> The client attempts to declare a queue with an illegal name. </doc> </rule> </field> <field name="passive" domain="bit" label="do not create queue"> <doc> If set, the server will reply with Declare-Ok if the queue already exists with the same name, and raise an error if not. The client can use this to check whether a queue exists without modifying the server state. When set, all other method fields except name and no-wait are ignored. A declare with both passive and no-wait has no effect. Arguments are compared for semantic equivalence. </doc> <rule name="passive" on-failure="not-found"> <doc> The client MAY ask the server to assert that a queue exists without creating the queue if not. If the queue does not exist, the server treats this as a failure. </doc> <doc type="scenario"> Client declares an existing queue with the passive option and expects the server to respond with a declare-ok. Client then attempts to declare a non-existent queue with the passive option, and the server must close the channel with the correct reply-code. </doc> </rule> <rule name="equivalent"> <doc> If not set and the queue exists, the server MUST check that the existing queue has the same values for durable, exclusive, auto-delete, and arguments fields. The server MUST respond with Declare-Ok if the requested queue matches these fields, and MUST raise a channel exception if not. </doc> <doc type="scenario"> TODO. </doc> </rule> </field> <field name="durable" domain="bit" label="request a durable queue"> <doc> If set when creating a new queue, the queue will be marked as durable. Durable queues remain active when a server restarts. Non-durable queues (transient queues) are purged if/when a server restarts. Note that durable queues do not necessarily hold persistent messages, although it does not make sense to send persistent messages to a transient queue. </doc> <rule name="persistence"> <doc>The server MUST recreate the durable queue after a restart. </doc> <doc type="scenario"> Client declares a durable queue. The server is then restarted. The client then attempts to send a message to the queue. The message should be successfully delivered. </doc> </rule> <rule name="types"> <doc>The server MUST support both durable and transient queues. </doc> <doc type="scenario"> A client declares two named queues, one durable and one transient. </doc> </rule> </field> <field name="exclusive" domain="bit" label="request an exclusive queue"> <doc> Exclusive queues may only be accessed by the current connection, and are deleted when that connection closes. Passive declaration of an exclusive queue by other connections are not allowed. </doc> <rule name="types"> <doc> The server MUST support both exclusive (private) and non-exclusive (shared) queues. </doc> <doc type="scenario"> A client declares two named queues, one exclusive and one non-exclusive. </doc> </rule> <rule name="exclusive" on-failure="resource-locked"> <doc> The client MAY NOT attempt to use a queue that was declared as exclusive by another still-open connection. </doc> <doc type="scenario"> One client declares an exclusive queue. A second client on a different connection attempts to declare, bind, consume, purge, delete, or declare a queue of the same name. </doc> </rule> </field> <field name="auto-delete" domain="bit" label="auto-delete queue when unused"> <doc> If set, the queue is deleted when all consumers have finished using it. The last consumer can be cancelled either explicitly or because its channel is closed. If there was no consumer ever on the queue, it won't be deleted. Applications can explicitly delete auto-delete queues using the Delete method as normal. </doc> <rule name="pre-existence"> <doc> The server MUST ignore the auto-delete field if the queue already exists. </doc> <doc type="scenario"> Client declares two named queues, one as auto-delete and one explicit-delete. Client then attempts to declare the two queues using the same names again, but reversing the value of the auto-delete field in each case. Verify that the queues still exist with the original auto-delete flag values. </doc> </rule> </field> <field name="no-wait" domain="no-wait"/> <field name="arguments" domain="table" label="arguments for declaration"> <doc> A set of arguments for the declaration. The syntax and semantics of these arguments depends on the server implementation. </doc> </field> </method> <method name="declare-ok" synchronous="1" index="11" label="confirms a queue definition"> <doc> This method confirms a Declare method and confirms the name of the queue, essential for automatically-named queues. </doc> <chassis name="client" implement="MUST"/> <field name="queue" domain="queue-name"> <doc> Reports the name of the queue. If the server generated a queue name, this field contains that name. </doc> <assert check="notnull"/> </field> <field name="message-count" domain="message-count"/> <field name="consumer-count" domain="long" label="number of consumers"> <doc> Reports the number of active consumers for the queue. Note that consumers can suspend activity (Channel.Flow) in which case they do not appear in this count. </doc> </field> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="bind" synchronous="1" index="20" label="bind queue to an exchange"> <doc> This method binds a queue to an exchange. Until a queue is bound it will not receive any messages. In a classic messaging model, store-and-forward queues are bound to a direct exchange and subscription queues are bound to a topic exchange. </doc> <rule name="duplicates"> <doc> A server MUST allow ignore duplicate bindings - that is, two or more bind methods for a specific queue, with identical arguments - without treating these as an error. </doc> <doc type="scenario"> A client binds a named queue to an exchange. The client then repeats the bind (with identical arguments). </doc> </rule> <rule name="unique"> <doc> A server MUST not deliver the same message more than once to a queue, even if the queue has multiple bindings that match the message. </doc> <doc type="scenario"> A client declares a named queue and binds it using multiple bindings to the amq.topic exchange. The client then publishes a message that matches all its bindings. </doc> </rule> <rule name="transient-exchange"> <doc> The server MUST allow a durable queue to bind to a transient exchange. </doc> <doc type="scenario"> A client declares a transient exchange. The client then declares a named durable queue and then attempts to bind the transient exchange to the durable queue. </doc> </rule> <rule name="durable-exchange"> <doc> Bindings of durable queues to durable exchanges are automatically durable and the server MUST restore such bindings after a server restart. </doc> <doc type="scenario"> A server declares a named durable queue and binds it to a durable exchange. The server is restarted. The client then attempts to use the queue/exchange combination. </doc> </rule> <rule name="binding-count"> <doc> The server SHOULD support at least 4 bindings per queue, and ideally, impose no limit except as defined by available resources. </doc> <doc type="scenario"> A client declares a named queue and attempts to bind it to 4 different exchanges. </doc> </rule> <chassis name="server" implement="MUST"/> <response name="bind-ok"/> <!-- Deprecated: "ticket", must be zero --> <field name="reserved-1" type="short" reserved="1"/> <field name="queue" domain="queue-name"> <doc>Specifies the name of the queue to bind.</doc> <rule name="queue-known" on-failure="not-found"> <doc> The client MUST either specify a queue name or have previously declared a queue on the same channel </doc> <doc type="scenario"> The client opens a channel and attempts to bind an unnamed queue. </doc> </rule> <rule name="must-exist" on-failure="not-found"> <doc> The client MUST NOT attempt to bind a queue that does not exist. </doc> <doc type="scenario"> The client attempts to bind a non-existent queue. </doc> </rule> </field> <field name="exchange" domain="exchange-name" label="name of the exchange to bind to"> <rule name="exchange-existence" on-failure="not-found"> <doc> A client MUST NOT be allowed to bind a queue to a non-existent exchange. </doc> <doc type="scenario"> A client attempts to bind an named queue to a undeclared exchange. </doc> </rule> <rule name="default-exchange"> <doc> The server MUST accept a blank exchange name to mean the default exchange. </doc> <doc type="scenario"> The client declares a queue and binds it to a blank exchange name. </doc> </rule> </field> <field name="routing-key" domain="shortstr" label="message routing key"> <doc> Specifies the routing key for the binding. The routing key is used for routing messages depending on the exchange configuration. Not all exchanges use a routing key - refer to the specific exchange documentation. If the queue name is empty, the server uses the last queue declared on the channel. If the routing key is also empty, the server uses this queue name for the routing key as well. If the queue name is provided but the routing key is empty, the server does the binding with that empty routing key. The meaning of empty routing keys depends on the exchange implementation. </doc> <rule name="direct-exchange-key-matching"> <doc> If a message queue binds to a direct exchange using routing key K and a publisher sends the exchange a message with routing key R, then the message MUST be passed to the message queue if K = R. </doc> </rule> </field> <field name="no-wait" domain="no-wait"/> <field name="arguments" domain="table" label="arguments for binding"> <doc> A set of arguments for the binding. The syntax and semantics of these arguments depends on the exchange class. </doc> </field> </method> <method name="bind-ok" synchronous="1" index="21" label="confirm bind successful"> <doc>This method confirms that the bind was successful.</doc> <chassis name="client" implement="MUST"/> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="unbind" synchronous="1" index="50" label="unbind a queue from an exchange"> <doc>This method unbinds a queue from an exchange.</doc> <rule name="01"> <doc>If a unbind fails, the server MUST raise a connection exception. </doc> </rule> <chassis name="server" implement="MUST"/> <response name="unbind-ok"/> <!-- Deprecated: "ticket", must be zero --> <field name="reserved-1" type="short" reserved="1"/> <field name="queue" domain="queue-name"> <doc>Specifies the name of the queue to unbind.</doc> <rule name="queue-known" on-failure="not-found"> <doc> The client MUST either specify a queue name or have previously declared a queue on the same channel </doc> <doc type="scenario"> The client opens a channel and attempts to unbind an unnamed queue. </doc> </rule> <rule name="must-exist" on-failure="not-found"> <doc> The client MUST NOT attempt to unbind a queue that does not exist. </doc> <doc type="scenario"> The client attempts to unbind a non-existent queue. </doc> </rule> </field> <field name="exchange" domain="exchange-name"> <doc>The name of the exchange to unbind from.</doc> <rule name="must-exist" on-failure="not-found"> <doc> The client MUST NOT attempt to unbind a queue from an exchange that does not exist. </doc> <doc type="scenario"> The client attempts to unbind a queue from a non-existent exchange. </doc> </rule> <rule name="default-exchange"> <doc> The server MUST accept a blank exchange name to mean the default exchange. </doc> <doc type="scenario"> The client declares a queue and binds it to a blank exchange name. </doc> </rule> </field> <field name="routing-key" domain="shortstr" label="routing key of binding"> <doc>Specifies the routing key of the binding to unbind.</doc> </field> <field name="arguments" domain="table" label="arguments of binding"> <doc>Specifies the arguments of the binding to unbind.</doc> </field> </method> <method name="unbind-ok" synchronous="1" index="51" label="confirm unbind successful"> <doc>This method confirms that the unbind was successful.</doc> <chassis name="client" implement="MUST"/> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="purge" synchronous="1" index="30" label="purge a queue"> <doc> This method removes all messages from a queue which are not awaiting acknowledgment. </doc> <rule name="02"> <doc> The server MUST NOT purge messages that have already been sent to a client but not yet acknowledged. </doc> </rule> <rule name="03"> <doc> The server MAY implement a purge queue or log that allows system administrators to recover accidentally-purged messages. The server SHOULD NOT keep purged messages in the same storage spaces as the live messages since the volumes of purged messages may get very large. </doc> </rule> <chassis name="server" implement="MUST"/> <response name="purge-ok"/> <!-- Deprecated: "ticket", must be zero --> <field name="reserved-1" type="short" reserved="1"/> <field name="queue" domain="queue-name"> <doc>Specifies the name of the queue to purge.</doc> <rule name="queue-known" on-failure="not-found"> <doc> The client MUST either specify a queue name or have previously declared a queue on the same channel </doc> <doc type="scenario"> The client opens a channel and attempts to purge an unnamed queue. </doc> </rule> <rule name="must-exist" on-failure="not-found"> <doc> The client MUST NOT attempt to purge a queue that does not exist. </doc> <doc type="scenario"> The client attempts to purge a non-existent queue. </doc> </rule> </field> <field name="no-wait" domain="no-wait"/> </method> <method name="purge-ok" synchronous="1" index="31" label="confirms a queue purge"> <doc>This method confirms the purge of a queue.</doc> <chassis name="client" implement="MUST"/> <field name="message-count" domain="message-count"> <doc> Reports the number of messages purged. </doc> </field> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="delete" synchronous="1" index="40" label="delete a queue"> <doc> This method deletes a queue. When a queue is deleted any pending messages are sent to a dead-letter queue if this is defined in the server configuration, and all consumers on the queue are cancelled. </doc> <rule name="01"> <doc> The server SHOULD use a dead-letter queue to hold messages that were pending on a deleted queue, and MAY provide facilities for a system administrator to move these messages back to an active queue. </doc> </rule> <chassis name="server" implement="MUST"/> <response name="delete-ok"/> <!-- Deprecated: "ticket", must be zero --> <field name="reserved-1" type="short" reserved="1"/> <field name="queue" domain="queue-name"> <doc>Specifies the name of the queue to delete.</doc> <rule name="queue-known" on-failure="not-found"> <doc> The client MUST either specify a queue name or have previously declared a queue on the same channel </doc> <doc type="scenario"> The client opens a channel and attempts to delete an unnamed queue. </doc> </rule> <rule name="must-exist" on-failure="not-found"> <doc> The client MUST NOT attempt to delete a queue that does not exist. </doc> <doc type="scenario"> The client attempts to delete a non-existent queue. </doc> </rule> </field> <field name="if-unused" domain="bit" label="delete only if unused"> <doc> If set, the server will only delete the queue if it has no consumers. If the queue has consumers the server does does not delete it but raises a channel exception instead. </doc> <rule name="in-use" on-failure="precondition-failed"> <doc> The server MUST NOT delete a queue that has consumers on it, if the if-unused field is true. </doc> <doc type="scenario"> The client declares a queue, and consumes from it, then tries to delete it setting if-unused to true. </doc> </rule> </field> <field name="if-empty" domain="bit" label="delete only if empty"> <doc> If set, the server will only delete the queue if it has no messages. </doc> <rule name="not-empty" on-failure="precondition-failed"> <doc> The server MUST NOT delete a queue that has messages on it, if the if-empty field is true. </doc> <doc type="scenario"> The client declares a queue, binds it and publishes some messages into it, then tries to delete it setting if-empty to true. </doc> </rule> </field> <field name="no-wait" domain="no-wait"/> </method> <method name="delete-ok" synchronous="1" index="41" label="confirm deletion of a queue"> <doc>This method confirms the deletion of a queue.</doc> <chassis name="client" implement="MUST"/> <field name="message-count" domain="message-count"> <doc>Reports the number of messages deleted.</doc> </field> </method> </class> <!-- == BASIC ============================================================ --> <class name="basic" handler="channel" index="60" label="work with basic content"> <doc> The Basic class provides methods that support an industry-standard messaging model. </doc> <doc type="grammar"> basic = C:QOS S:QOS-OK / C:CONSUME S:CONSUME-OK / C:CANCEL S:CANCEL-OK / C:PUBLISH content / S:RETURN content / S:DELIVER content / C:GET ( S:GET-OK content / S:GET-EMPTY ) / C:ACK / C:REJECT / C:RECOVER-ASYNC / C:RECOVER S:RECOVER-OK </doc> <chassis name="server" implement="MUST"/> <chassis name="client" implement="MAY"/> <rule name="01"> <doc> The server SHOULD respect the persistent property of basic messages and SHOULD make a best-effort to hold persistent basic messages on a reliable storage mechanism. </doc> <doc type="scenario"> Send a persistent message to queue, stop server, restart server and then verify whether message is still present. Assumes that queues are durable. Persistence without durable queues makes no sense. </doc> </rule> <rule name="02"> <doc> The server MUST NOT discard a persistent basic message in case of a queue overflow. </doc> <doc type="scenario"> Declare a queue overflow situation with persistent messages and verify that messages do not get lost (presumably the server will write them to disk). </doc> </rule> <rule name="03"> <doc> The server MAY use the Channel.Flow method to slow or stop a basic message publisher when necessary. </doc> <doc type="scenario"> Declare a queue overflow situation with non-persistent messages and verify whether the server responds with Channel.Flow or not. Repeat with persistent messages. </doc> </rule> <rule name="04"> <doc> The server MAY overflow non-persistent basic messages to persistent storage. </doc> <!-- Test scenario: untestable --> </rule> <rule name="05"> <doc> The server MAY discard or dead-letter non-persistent basic messages on a priority basis if the queue size exceeds some configured limit. </doc> <!-- Test scenario: untestable --> </rule> <rule name="06"> <doc> The server MUST implement at least 2 priority levels for basic messages, where priorities 0-4 and 5-9 are treated as two distinct levels. </doc> <doc type="scenario"> Send a number of priority 0 messages to a queue. Send one priority 9 message. Consume messages from the queue and verify that the first message received was priority 9. </doc> </rule> <rule name="07"> <doc> The server MAY implement up to 10 priority levels. </doc> <doc type="scenario"> Send a number of messages with mixed priorities to a queue, so that all priority values from 0 to 9 are exercised. A good scenario would be ten messages in low-to-high priority. Consume from queue and verify how many priority levels emerge. </doc> </rule> <rule name="08"> <doc> The server MUST deliver messages of the same priority in order irrespective of their individual persistence. </doc> <doc type="scenario"> Send a set of messages with the same priority but different persistence settings to a queue. Consume and verify that messages arrive in same order as originally published. </doc> </rule> <rule name="09"> <doc> The server MUST support un-acknowledged delivery of Basic content, i.e. consumers with the no-ack field set to TRUE. </doc> </rule> <rule name="10"> <doc> The server MUST support explicitly acknowledged delivery of Basic content, i.e. consumers with the no-ack field set to FALSE. </doc> <doc type="scenario"> Declare a queue and a consumer using explicit acknowledgements. Publish a set of messages to the queue. Consume the messages but acknowledge only half of them. Disconnect and reconnect, and consume from the queue. Verify that the remaining messages are received. </doc> </rule> <!-- These are the properties for a Basic content --> <!-- MIME typing --> <field name="content-type" domain="shortstr" label="MIME content type"/> <!-- MIME typing --> <field name="content-encoding" domain="shortstr" label="MIME content encoding"/> <!-- For applications, and for header exchange routing --> <field name="headers" domain="table" label="message header field table"/> <!-- For queues that implement persistence --> <field name="delivery-mode" domain="octet" label="non-persistent (1) or persistent (2)"/> <!-- For queues that implement priorities --> <field name="priority" domain="octet" label="message priority, 0 to 9"/> <!-- For application use, no formal behaviour --> <field name="correlation-id" domain="shortstr" label="application correlation identifier"/> <!-- For application use, no formal behaviour but may hold the name of a private response queue, when used in request messages --> <field name="reply-to" domain="shortstr" label="address to reply to"/> <!-- For implementation use, no formal behaviour --> <field name="expiration" domain="shortstr" label="message expiration specification"/> <!-- For application use, no formal behaviour --> <field name="message-id" domain="shortstr" label="application message identifier"/> <!-- For application use, no formal behaviour --> <field name="timestamp" domain="timestamp" label="message timestamp"/> <!-- For application use, no formal behaviour --> <field name="type" domain="shortstr" label="message type name"/> <!-- For application use, no formal behaviour --> <field name="user-id" domain="shortstr" label="creating user id"/> <!-- For application use, no formal behaviour --> <field name="app-id" domain="shortstr" label="creating application id"/> <!-- Deprecated, was old cluster-id property --> <field name="reserved" domain="shortstr" label="reserved, must be empty"/> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="qos" synchronous="1" index="10" label="specify quality of service"> <doc> This method requests a specific quality of service. The QoS can be specified for the current channel or for all channels on the connection. The particular properties and semantics of a qos method always depend on the content class semantics. Though the qos method could in principle apply to both peers, it is currently meaningful only for the server. </doc> <chassis name="server" implement="MUST"/> <response name="qos-ok"/> <field name="prefetch-size" domain="long" label="prefetch window in octets"> <doc> The client can request that messages be sent in advance so that when the client finishes processing a message, the following message is already held locally, rather than needing to be sent down the channel. Prefetching gives a performance improvement. This field specifies the prefetch window size in octets. The server will send a message in advance if it is equal to or smaller in size than the available prefetch size (and also falls into other prefetch limits). May be set to zero, meaning "no specific limit", although other prefetch limits may still apply. The prefetch-size is ignored if the no-ack option is set. </doc> <rule name="01"> <doc> The server MUST ignore this setting when the client is not processing any messages - i.e. the prefetch size does not limit the transfer of single messages to a client, only the sending in advance of more messages while the client still has one or more unacknowledged messages. </doc> <doc type="scenario"> Define a QoS prefetch-size limit and send a single message that exceeds that limit. Verify that the message arrives correctly. </doc> </rule> </field> <field name="prefetch-count" domain="short" label="prefetch window in messages"> <doc> Specifies a prefetch window in terms of whole messages. This field may be used in combination with the prefetch-size field; a message will only be sent in advance if both prefetch windows (and those at the channel and connection level) allow it. The prefetch-count is ignored if the no-ack option is set. </doc> <rule name="01"> <doc> The server may send less data in advance than allowed by the client's specified prefetch windows but it MUST NOT send more. </doc> <doc type="scenario"> Define a QoS prefetch-size limit and a prefetch-count limit greater than one. Send multiple messages that exceed the prefetch size. Verify that no more than one message arrives at once. </doc> </rule> </field> <field name="global" domain="bit" label="apply to entire connection"> <doc> By default the QoS settings apply to the current channel only. If this field is set, they are applied to the entire connection. </doc> </field> </method> <method name="qos-ok" synchronous="1" index="11" label="confirm the requested qos"> <doc> This method tells the client that the requested QoS levels could be handled by the server. The requested QoS applies to all active consumers until a new QoS is defined. </doc> <chassis name="client" implement="MUST"/> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="consume" synchronous="1" index="20" label="start a queue consumer"> <doc> This method asks the server to start a "consumer", which is a transient request for messages from a specific queue. Consumers last as long as the channel they were declared on, or until the client cancels them. </doc> <rule name="01"> <doc> The server SHOULD support at least 16 consumers per queue, and ideally, impose no limit except as defined by available resources. </doc> <doc type="scenario"> Declare a queue and create consumers on that queue until the server closes the connection. Verify that the number of consumers created was at least sixteen and report the total number. </doc> </rule> <chassis name="server" implement="MUST"/> <response name="consume-ok"/> <!-- Deprecated: "ticket", must be zero --> <field name="reserved-1" type="short" reserved="1"/> <field name="queue" domain="queue-name"> <doc>Specifies the name of the queue to consume from.</doc> </field> <field name="consumer-tag" domain="consumer-tag"> <doc> Specifies the identifier for the consumer. The consumer tag is local to a channel, so two clients can use the same consumer tags. If this field is empty the server will generate a unique tag. </doc> <rule name="01" on-failure="not-allowed"> <doc> The client MUST NOT specify a tag that refers to an existing consumer. </doc> <doc type="scenario"> Attempt to create two consumers with the same non-empty tag, on the same channel. </doc> </rule> <rule name="02" on-failure="not-allowed"> <doc> The consumer tag is valid only within the channel from which the consumer was created. I.e. a client MUST NOT create a consumer in one channel and then use it in another. </doc> <doc type="scenario"> Attempt to create a consumer in one channel, then use in another channel, in which consumers have also been created (to test that the server uses unique consumer tags). </doc> </rule> </field> <field name="no-local" domain="no-local"/> <field name="no-ack" domain="no-ack"/> <field name="exclusive" domain="bit" label="request exclusive access"> <doc> Request exclusive consumer access, meaning only this consumer can access the queue. </doc> <rule name="01" on-failure="access-refused"> <doc> The client MAY NOT gain exclusive access to a queue that already has active consumers. </doc> <doc type="scenario"> Open two connections to a server, and in one connection declare a shared (non-exclusive) queue and then consume from the queue. In the second connection attempt to consume from the same queue using the exclusive option. </doc> </rule> </field> <field name="no-wait" domain="no-wait"/> <field name="arguments" domain="table" label="arguments for declaration"> <doc> A set of arguments for the consume. The syntax and semantics of these arguments depends on the server implementation. </doc> </field> </method> <method name="consume-ok" synchronous="1" index="21" label="confirm a new consumer"> <doc> The server provides the client with a consumer tag, which is used by the client for methods called on the consumer at a later stage. </doc> <chassis name="client" implement="MUST"/> <field name="consumer-tag" domain="consumer-tag"> <doc> Holds the consumer tag specified by the client or provided by the server. </doc> </field> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="cancel" synchronous="1" index="30" label="end a queue consumer"> <doc> This method cancels a consumer. This does not affect already delivered messages, but it does mean the server will not send any more messages for that consumer. The client may receive an arbitrary number of messages in between sending the cancel method and receiving the cancel-ok reply. </doc> <rule name="01"> <doc> If the queue does not exist the server MUST ignore the cancel method, so long as the consumer tag is valid for that channel. </doc> <doc type="scenario"> TODO. </doc> </rule> <chassis name="server" implement="MUST"/> <response name="cancel-ok"/> <field name="consumer-tag" domain="consumer-tag"/> <field name="no-wait" domain="no-wait"/> </method> <method name="cancel-ok" synchronous="1" index="31" label="confirm a cancelled consumer"> <doc> This method confirms that the cancellation was completed. </doc> <chassis name="client" implement="MUST"/> <field name="consumer-tag" domain="consumer-tag"/> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="publish" content="1" index="40" label="publish a message"> <doc> This method publishes a message to a specific exchange. The message will be routed to queues as defined by the exchange configuration and distributed to any active consumers when the transaction, if any, is committed. </doc> <chassis name="server" implement="MUST"/> <!-- Deprecated: "ticket", must be zero --> <field name="reserved-1" type="short" reserved="1"/> <field name="exchange" domain="exchange-name"> <doc> Specifies the name of the exchange to publish to. The exchange name can be empty, meaning the default exchange. If the exchange name is specified, and that exchange does not exist, the server will raise a channel exception. </doc> <rule name="must-exist" on-failure="not-found"> <doc> The client MUST NOT attempt to publish a content to an exchange that does not exist. </doc> <doc type="scenario"> The client attempts to publish a content to a non-existent exchange. </doc> </rule> <rule name="default-exchange"> <doc> The server MUST accept a blank exchange name to mean the default exchange. </doc> <doc type="scenario"> The client declares a queue and binds it to a blank exchange name. </doc> </rule> <rule name="02"> <doc> If the exchange was declared as an internal exchange, the server MUST raise a channel exception with a reply code 403 (access refused). </doc> <doc type="scenario"> TODO. </doc> </rule> <rule name="03"> <doc> The exchange MAY refuse basic content in which case it MUST raise a channel exception with reply code 540 (not implemented). </doc> <doc type="scenario"> TODO. </doc> </rule> </field> <field name="routing-key" domain="shortstr" label="Message routing key"> <doc> Specifies the routing key for the message. The routing key is used for routing messages depending on the exchange configuration. </doc> </field> <field name="mandatory" domain="bit" label="indicate mandatory routing"> <doc> This flag tells the server how to react if the message cannot be routed to a queue. If this flag is set, the server will return an unroutable message with a Return method. If this flag is zero, the server silently drops the message. </doc> <rule name="01"> <doc> The server SHOULD implement the mandatory flag. </doc> <doc type="scenario"> TODO. </doc> </rule> </field> <field name="immediate" domain="bit" label="request immediate delivery"> <doc> This flag tells the server how to react if the message cannot be routed to a queue consumer immediately. If this flag is set, the server will return an undeliverable message with a Return method. If this flag is zero, the server will queue the message, but with no guarantee that it will ever be consumed. </doc> <rule name="01"> <doc> The server SHOULD implement the immediate flag. </doc> <doc type="scenario"> TODO. </doc> </rule> </field> </method> <method name="return" content="1" index="50" label="return a failed message"> <doc> This method returns an undeliverable message that was published with the "immediate" flag set, or an unroutable message published with the "mandatory" flag set. The reply code and text provide information about the reason that the message was undeliverable. </doc> <chassis name="client" implement="MUST"/> <field name="reply-code" domain="reply-code"/> <field name="reply-text" domain="reply-text"/> <field name="exchange" domain="exchange-name"> <doc> Specifies the name of the exchange that the message was originally published to. May be empty, meaning the default exchange. </doc> </field> <field name="routing-key" domain="shortstr" label="Message routing key"> <doc> Specifies the routing key name specified when the message was published. </doc> </field> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="deliver" content="1" index="60" label="notify the client of a consumer message"> <doc> This method delivers a message to the client, via a consumer. In the asynchronous message delivery model, the client starts a consumer using the Consume method, then the server responds with Deliver methods as and when messages arrive for that consumer. </doc> <rule name="01"> <doc> The server SHOULD track the number of times a message has been delivered to clients and when a message is redelivered a certain number of times - e.g. 5 times - without being acknowledged, the server SHOULD consider the message to be unprocessable (possibly causing client applications to abort), and move the message to a dead letter queue. </doc> <doc type="scenario"> TODO. </doc> </rule> <chassis name="client" implement="MUST"/> <field name="consumer-tag" domain="consumer-tag"/> <field name="delivery-tag" domain="delivery-tag"/> <field name="redelivered" domain="redelivered"/> <field name="exchange" domain="exchange-name"> <doc> Specifies the name of the exchange that the message was originally published to. May be empty, indicating the default exchange. </doc> </field> <field name="routing-key" domain="shortstr" label="Message routing key"> <doc>Specifies the routing key name specified when the message was published. </doc> </field> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="get" synchronous="1" index="70" label="direct access to a queue"> <doc> This method provides a direct access to the messages in a queue using a synchronous dialogue that is designed for specific types of application where synchronous functionality is more important than performance. </doc> <response name="get-ok"/> <response name="get-empty"/> <chassis name="server" implement="MUST"/> <!-- Deprecated: "ticket", must be zero --> <field name="reserved-1" type="short" reserved="1"/> <field name="queue" domain="queue-name"> <doc>Specifies the name of the queue to get a message from. </doc> </field> <field name="no-ack" domain="no-ack"/> </method> <method name="get-ok" synchronous="1" content="1" index="71" label="provide client with a message"> <doc> This method delivers a message to the client following a get method. A message delivered by 'get-ok' must be acknowledged unless the no-ack option was set in the get method. </doc> <chassis name="client" implement="MAY"/> <field name="delivery-tag" domain="delivery-tag"/> <field name="redelivered" domain="redelivered"/> <field name="exchange" domain="exchange-name"> <doc> Specifies the name of the exchange that the message was originally published to. If empty, the message was published to the default exchange. </doc> </field> <field name="routing-key" domain="shortstr" label="Message routing key"> <doc>Specifies the routing key name specified when the message was published. </doc> </field> <field name="message-count" domain="message-count"/> </method> <method name="get-empty" synchronous="1" index="72" label="indicate no messages available"> <doc> This method tells the client that the queue has no messages available for the client. </doc> <chassis name="client" implement="MAY"/> <!-- Deprecated: "cluster-id", must be empty --> <field name="reserved-1" type="shortstr" reserved="1"/> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="ack" index="80" label="acknowledge one or more messages"> <doc> This method acknowledges one or more messages delivered via the Deliver or Get-Ok methods. The client can ask to confirm a single message or a set of messages up to and including a specific message. </doc> <chassis name="server" implement="MUST"/> <field name="delivery-tag" domain="delivery-tag"/> <field name="multiple" domain="bit" label="acknowledge multiple messages"> <doc> If set to 1, the delivery tag is treated as "up to and including", so that the client can acknowledge multiple messages with a single method. If set to zero, the delivery tag refers to a single message. If the multiple field is 1, and the delivery tag is zero, tells the server to acknowledge all outstanding messages. </doc> <rule name="exists" on-failure="precondition-failed"> <doc> The server MUST validate that a non-zero delivery-tag refers to a delivered message, and raise a channel exception if this is not the case. On a transacted channel, this check MUST be done immediately and not delayed until a Tx.Commit. Specifically, a client MUST not acknowledge the same message more than once. </doc> <doc type="scenario"> TODO. </doc> </rule> </field> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="reject" index="90" label="reject an incoming message"> <doc> This method allows a client to reject a message. It can be used to interrupt and cancel large incoming messages, or return untreatable messages to their original queue. </doc> <rule name="01"> <doc> The server SHOULD be capable of accepting and process the Reject method while sending message content with a Deliver or Get-Ok method. I.e. the server should read and process incoming methods while sending output frames. To cancel a partially-send content, the server sends a content body frame of size 1 (i.e. with no data except the frame-end octet). </doc> </rule> <rule name="02"> <doc> The server SHOULD interpret this method as meaning that the client is unable to process the message at this time. </doc> <doc type="scenario"> TODO. </doc> </rule> <rule name="03"> <doc> The client MUST NOT use this method as a means of selecting messages to process. </doc> <doc type="scenario"> TODO. </doc> </rule> <chassis name="server" implement="MUST"/> <field name="delivery-tag" domain="delivery-tag"/> <field name="requeue" domain="bit" label="requeue the message"> <doc> If requeue is true, the server will attempt to requeue the message. If requeue is false or the requeue attempt fails the messages are discarded or dead-lettered. </doc> <rule name="01"> <doc> The server MUST NOT deliver the message to the same client within the context of the current channel. The recommended strategy is to attempt to deliver the message to an alternative consumer, and if that is not possible, to move the message to a dead-letter queue. The server MAY use more sophisticated tracking to hold the message on the queue and redeliver it to the same client at a later stage. </doc> <doc type="scenario"> TODO. </doc> </rule> </field> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="recover-async" index="100" label="redeliver unacknowledged messages" deprecated="1"> <doc> This method asks the server to redeliver all unacknowledged messages on a specified channel. Zero or more messages may be redelivered. This method is deprecated in favour of the synchronous Recover/Recover-Ok. </doc> <rule name="01"> <doc> The server MUST set the redelivered flag on all messages that are resent. </doc> <doc type="scenario"> TODO. </doc> </rule> <chassis name="server" implement="MAY"/> <field name="requeue" domain="bit" label="requeue the message"> <doc> If this field is zero, the message will be redelivered to the original recipient. If this bit is 1, the server will attempt to requeue the message, potentially then delivering it to an alternative subscriber. </doc> </field> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="recover" index="110" label="redeliver unacknowledged messages"> <doc> This method asks the server to redeliver all unacknowledged messages on a specified channel. Zero or more messages may be redelivered. This method replaces the asynchronous Recover. </doc> <rule name="01"> <doc> The server MUST set the redelivered flag on all messages that are resent. </doc> <doc type="scenario"> TODO. </doc> </rule> <chassis name="server" implement="MUST"/> <field name="requeue" domain="bit" label="requeue the message"> <doc> If this field is zero, the message will be redelivered to the original recipient. If this bit is 1, the server will attempt to requeue the message, potentially then delivering it to an alternative subscriber. </doc> </field> </method> <method name="recover-ok" synchronous="1" index="111" label="confirm recovery"> <doc> This method acknowledges a Basic.Recover method. </doc> <chassis name="client" implement="MUST"/> </method> </class> <!-- == TX =============================================================== --> <class name="tx" handler="channel" index="90" label="work with transactions"> <doc> The Tx class allows publish and ack operations to be batched into atomic units of work. The intention is that all publish and ack requests issued within a transaction will complete successfully or none of them will. Servers SHOULD implement atomic transactions at least where all publish or ack requests affect a single queue. Transactions that cover multiple queues may be non-atomic, given that queues can be created and destroyed asynchronously, and such events do not form part of any transaction. Further, the behaviour of transactions with respect to the immediate and mandatory flags on Basic.Publish methods is not defined. </doc> <rule name="not multiple queues"> <doc> Applications MUST NOT rely on the atomicity of transactions that affect more than one queue. </doc> </rule> <rule name="not immediate"> <doc> Applications MUST NOT rely on the behaviour of transactions that include messages published with the immediate option. </doc> </rule> <rule name="not mandatory"> <doc> Applications MUST NOT rely on the behaviour of transactions that include messages published with the mandatory option. </doc> </rule> <doc type="grammar"> tx = C:SELECT S:SELECT-OK / C:COMMIT S:COMMIT-OK / C:ROLLBACK S:ROLLBACK-OK </doc> <chassis name="server" implement="SHOULD"/> <chassis name="client" implement="MAY"/> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="select" synchronous="1" index="10" label="select standard transaction mode"> <doc> This method sets the channel to use standard transactions. The client must use this method at least once on a channel before using the Commit or Rollback methods. </doc> <chassis name="server" implement="MUST"/> <response name="select-ok"/> </method> <method name="select-ok" synchronous="1" index="11" label="confirm transaction mode"> <doc> This method confirms to the client that the channel was successfully set to use standard transactions. </doc> <chassis name="client" implement="MUST"/> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="commit" synchronous="1" index="20" label="commit the current transaction"> <doc> This method commits all message publications and acknowledgments performed in the current transaction. A new transaction starts immediately after a commit. </doc> <chassis name="server" implement="MUST"/> <response name="commit-ok"/> <rule name="transacted" on-failure="precondition-failed"> <doc> The client MUST NOT use the Commit method on non-transacted channels. </doc> <doc type="scenario"> The client opens a channel and then uses Tx.Commit. </doc> </rule> </method> <method name="commit-ok" synchronous="1" index="21" label="confirm a successful commit"> <doc> This method confirms to the client that the commit succeeded. Note that if a commit fails, the server raises a channel exception. </doc> <chassis name="client" implement="MUST"/> </method> <!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --> <method name="rollback" synchronous="1" index="30" label="abandon the current transaction"> <doc> This method abandons all message publications and acknowledgments performed in the current transaction. A new transaction starts immediately after a rollback. Note that unacked messages will not be automatically redelivered by rollback; if that is required an explicit recover call should be issued. </doc> <chassis name="server" implement="MUST"/> <response name="rollback-ok"/> <rule name="transacted" on-failure="precondition-failed"> <doc> The client MUST NOT use the Rollback method on non-transacted channels. </doc> <doc type="scenario"> The client opens a channel and then uses Tx.Rollback. </doc> </rule> </method> <method name="rollback-ok" synchronous="1" index="31" label="confirm successful rollback"> <doc> This method confirms to the client that the rollback succeeded. Note that if an rollback fails, the server raises a channel exception. </doc> <chassis name="client" implement="MUST"/> </method> </class> </amqp>