907 lines
32 KiB
Plaintext
907 lines
32 KiB
Plaintext
-----------------------------------------------
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Stream Processing Offload Engine (SPOE)
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Version 1.0
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( Last update: 2016-11-07 )
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-----------------------------------------------
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Author : Christopher Faulet
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Contact : cfaulet at haproxy dot com
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SUMMARY
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--------
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0. Terms
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1. Introduction
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2. SPOE configuration
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2.1. SPOE scope
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2.2. "spoe-agent" section
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2.3. "spoe-message" section
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2.4. Example
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3. SPOP specification
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3.1. Data types
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3.2. Frames
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3.2.1. Frame capabilities
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3.2.2. Frame types overview
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3.2.3. Workflow
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3.2.4. Frame: HAPROXY-HELLO
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3.2.5. Frame: AGENT-HELLO
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3.2.6. Frame: NOTIFY
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3.2.7. Frame: ACK
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3.2.8. Frame: HAPROXY-DISCONNECT
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3.2.9. Frame: AGENT-DISCONNECT
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3.3. Events & messages
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3.4. Actions
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3.5. Error & timeouts
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0. Terms
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---------
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* SPOE : Stream Processing Offload Engine.
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A SPOE is a filter talking to servers managed ba a SPOA to offload the
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stream processing. An engine is attached to a proxy. A proxy can have
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several engine. Each engine is linked to an agent and only one.
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* SPOA : Stream Processing Offload Agent.
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A SPOA is a service that will receive info from a SPOE to offload the
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stream processing. An agent manages several servers. It uses a backend to
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reference all of them. By extension, these servers can also be called
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agents.
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* SPOP : Stream Processing Offload Protocol, used by SPOEs to talk to SPOA
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servers.
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This protocol is used by engines to talk to agents. It is an in-house
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binary protocol described in this documentation.
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1. Introduction
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----------------
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SPOE is a feature introduced in HAProxy 1.7. It makes possible the
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communication with external components to retrieve some info. The idea started
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with the problems caused by most ldap libs not working fine in event-driven
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systems (often at least the connect() is blocking). So, it is hard to properly
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implement Single Sign On solution (SSO) in HAProxy. The SPOE will ease this
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kind of processing, or we hope so.
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Now, the aim of SPOE is to allow any kind of offloading on the streams. First
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releases, besides being experimental, won't do lot of things. As we will see,
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there are few handled events and even less actions supported. Actually, for
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now, the SPOE can offload the processing before "tcp-request content",
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"tcp-response content", "http-request" and "http-response" rules. And it only
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supports variables definition. But, in spite of these limited features, we can
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easily imagine to implement SSO solution, ip reputation or ip geolocation
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services.
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2. SPOE configuration
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----------------------
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Because SPOE is implemented as a filter, To use it, you must declare a "filter
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spoe" line in a proxy section (frontend/backend/listen) :
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frontend my-front
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...
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filter spoe [engine <name>] config <file>
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...
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The "config" parameter is mandatory. It specififies the SPOE configuration
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file. The engine name is optional. It can be set to declare the scope to use in
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the SPOE configuration. So it is possible to use the same SPOE configuration
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for several engines. If no name is provided, the SPOE configuration must not
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contain any scope directive.
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We use a separate configuration file on purpose. By commenting SPOE filter
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line, you completly disable the feature, including the parsing of sections
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reserved to SPOE. This is also a way to keep the HAProxy configuration clean.
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A SPOE configuration file must contains, at least, the SPOA configuration
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("spoe-agent" section) and SPOE messages ("spoe-message" section) attached to
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this agent. Unused messages (not reference in "spoe-agent" section) will be
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ignored.
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IMPORTANT : The configuration of a SPOE filter must be located in a dedicated
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file. But the backend used by a SPOA must be declared in HAProxy configuration
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file.
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2.1. SPOE scope
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-------------------------
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If you specify an engine name on the SPOE filter line, then you need to define
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scope in the SPOE configuration with the same name. You can have several SPOE
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scope in the same file. In each scope, you must define one and only one
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"spoe-agent" section to configure the SPOA linked to your SPOE and several
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"spoe-message" sections to describe messages sent to servers mananger by your
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SPOA.
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A SPOE scope starts with this kind of line :
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[<name>]
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where <name> is the same engine name specified on the SPOE filter line. The
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scope ends when the file ends or when another scope is found.
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Example :
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[my-first-engine]
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spoe-agent my-agent
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...
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spoe-message msg1
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...
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spoe-message msg2
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...
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[my-second-engine]
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...
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If no engine name is provided on the SPOE filter line, no SPOE scope must be
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found in the SPOE configuration file. All the file is considered to be in the
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same anonymous and implicit scope.
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2.2. "spoe-agent" section
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--------------------------
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For each engine, you must define one and only one "spoe-agent" section. In this
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section, you will declare SPOE messages and the backend you will use. You will
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also set timeouts and options to customize your agent's behaviour.
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spoe-agent <name>
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Create a new SPOA with the name <name>. It must have one and only one
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"spoe-agent" definition by SPOE scope.
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Arguments :
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<name> is the name of the agent section.
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following keywords are supported :
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- maxconnrate
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- maxerrrate
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- messages
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- option continue-on-error
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- option set-on-error
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- option var-prefix
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- timeout hello|idle|processing
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- use-backend
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maxconnrate <number>
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Set the maximum number of connections per second to <number>. The SPOE will
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stop to open new connections if the maximum is reached and will wait to
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acquire an existing one. So it is important to set "timeout hello" to a
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relatively small value.
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maxerrrate <number>
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Set the maximum number of errors per second to <number>. The SPOE will stop
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its processing if the maximum is reached.
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messages <msg-name> ...
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Declare the list of SPOE messages that an agent will handle.
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Arguments :
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<msg-name> is the name of a SPOE message.
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Messages declared here must be found in the same engine scope, else an error
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is triggered during the configuration parsing. You can have many "messages"
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lines.
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See also: "spoe-message" section.
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option continue-on-error
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Do not stop the events processing when an error occurred on a stream.
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By default, for a specific stream, when an abnormal/unexpected error occurs,
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the SPOE is disabled for all the transaction. So if you have several events
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configured, such error on an event will disabled all followings. For TCP
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streams, this will disable the SPOE for the whole session. For HTTP streams,
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this will disable it for the transaction (request and response).
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When set, this option bypass this behaviour and only the current event will
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be ignored.
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option set-on-error <var name>
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Define the variable to set when an error occurred during an event processing.
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Arguments :
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<var name> is the variable name, without the scope. The name may only
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contain characters 'a-z', 'A-Z', '0-9', '.' and '_'.
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This variable will only be set when an error occurred in the scope of the
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transaction. As for all other variables define by the SPOE, it will be
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prefixed. So, if your variable name is "error" and your prefix is
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"my_spoe_pfx", the variable will be "txn.my_spoe_pfx.error".
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When set, the variable is the boolean "true". Note that if "option
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continue-on-error" is set, the variable is not automatically removed between
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events processing.
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See also: "option continue-on-error", "option var-prefix".
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option var-prefix <prefix>
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Define the prefix used when variables are set by an agent.
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Arguments :
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<prefix> is the prefix used to limit the scope of variables set by an
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agent.
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To avoid conflict with other variables defined by HAProxy, all variables
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names will be prefixed. By default, the "spoe-agent" name is used. This
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option can be used to customize it.
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The prefix will be added between the variable scope and its name, separated
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by a '.'. It may only contain characters 'a-z', 'A-Z', '0-9', '.' and '_', as
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for variables name. In HAProxy configuration, you need to use this prefix as
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a part of the variables name. For example, if an agent define the variable
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"myvar" in the "txn" scope, with the prefix "my_spoe_pfx", then you should
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use "txn.my_spoe_pfx.myvar" name in your HAProxy configuration.
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An agent will never set new variables at runtime. It can only set new value
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for existing ones.
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timeout hello <timeout>
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Set the maximum time to wait for an agent to receive the AGENT-HELLO frame.
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It is applied on the stream that handle the connection with the agent.
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Arguments :
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<timeout> is the timeout value specified in milliseconds by default, but
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can be in any other unit if the number is suffixed by the unit,
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as explained at the top of this document.
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This timeout is an applicative timeout. It differ from "timeout connect"
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defined on backends.
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timeout idle <timeout>
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Set the maximum time to wait for an agent to close an idle connection. It is
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applied on the stream that handle the connection with the agent.
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Arguments :
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<timeout> is the timeout value specified in milliseconds by default, but
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can be in any other unit if the number is suffixed by the unit,
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as explained at the top of this document.
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timeout processing <timeout>
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Set the maximum time to wait for a stream to process an event, i.e to acquire
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a stream to talk with an agent, to encode all messages, to send the NOTIFY
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frame, to receive the corrsponding acknowledgement and to process all
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actions. It is applied on the stream that handle the client and the server
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sessions.
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Arguments :
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<timeout> is the timeout value specified in milliseconds by default, but
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can be in any other unit if the number is suffixed by the unit,
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as explained at the top of this document.
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use-backend <backend>
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Specify the backend to use. It must be defined.
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Arguments :
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<backend> is the name of a valid "backend" section.
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2.3. "spoe-message" section
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----------------------------
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To offload the stream processing, SPOE will send messages with specific
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information at a specific moment in the stream life and will wait for
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corresponding replies to know what to do.
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spoe-message <name>
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Create a new SPOE message with the name <name>.
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Arguments :
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<name> is the name of the SPOE message.
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Here you define a message that can be referenced in a "spoe-agent"
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section. Following keywords are supported :
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- args
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- event
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See also: "spoe-agent" section.
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args [name=]<sample> ...
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Define arguments passed into the SPOE message.
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Arguments :
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<sample> is a sample expression.
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When the message is processed, if a sample expression is not available, it is
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set to NULL. Arguments are processed in their declaration order and added in
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the message in that order. It is possible to declare named arguements.
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For example:
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args frontend=fe_id src dst
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event <name>
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Set the event that triggers sending of the message.
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Argument :
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<name> is the event name.
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Supported events are:
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- on-client-session
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- on-server-session
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- on-frontend-tcp-request
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- on-backend-tcp-request
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- on-tcp-response
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- on-frontend-http-request
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- on-backend-http-request
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- on-http-response
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See section 3.5 about Events.
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2.4. Example
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-------------
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Here is a simple but complete example that sends client-ip address to a ip
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reputation service. This service can set the variable "ip_score" which is an
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integer between 0 and 100, indicating its reputation (100 means totally safe
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and 0 a blacklisted IP with no doubt).
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###
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### HAProxy configuration
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frontend www
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mode http
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bind *:80
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filter spoe engine ip-reputation config spoe-ip-reputation.conf
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# Reject connection if the IP reputation is under 20
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tcp-request content reject if { var(sess.iprep.ip_score) -m int lt 20 }
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default_backend http-servers
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backend http-servers
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mode http
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server http A.B.C.D:80
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backend iprep-servers
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mode tcp
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balance roundrobin
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timeout connect 5s # greater than hello timeout
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timeout server 3m # greater than idle timeout
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server iprep1 A1.B1.C1.D1:12345
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server iprep2 A2.B2.C2.D2:12345
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####
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### spoe-ip-reputation.conf
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[ip-reputation]
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spoe-agent iprep-agent
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messages get-ip-reputation
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option var-prefix iprep
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timeout hello 2s
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timeout idle 2m
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timeout processing 10ms
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use-backend iprep-servers
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spoe-message get-ip-reputation
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args ip=src
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event on-client-session
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3. SPOP specification
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----------------------
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3.1. Data types
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----------------
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Here is the bytewise representation of typed data:
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TYPED-DATA : <TYPE:4 bits><FLAGS:4 bits><DATA>
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Supported types and their representation are:
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TYPE | ID | DESCRIPTION
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-----------------------------+-----+----------------------------------
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NULL | 0 | NULL : <0>
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Boolean | 1 | BOOL : <1+FLAG>
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32bits signed integer | 2 | INT32 : <2><VALUE:varint>
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32bits unsigned integer | 3 | UINT32 : <3><VALUE:varint>
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64bits signed integer | 4 | INT64 : <4><VALUE:varint>
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32bits unsigned integer | 5 | UNIT64 : <5><VALUE:varint>
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IPV4 | 6 | IPV4 : <6><STRUCT IN_ADDR:4 bytes>
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IPV6 | 7 | IPV6 : <7><STRUCT IN_ADDR6:16 bytes>
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String | 8 | STRING : <8><LENGTH:varint><BYTES>
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Binary | 9 | BINARY : <9><LENGTH:varint><BYTES>
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10 -> 15 unused/reserved | - | -
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-----------------------------+-----+----------------------------------
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Variable-length integer (varint) are encoded using Peers encoding:
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0 <= X < 240 : 1 byte (7.875 bits) [ XXXX XXXX ]
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240 <= X < 2288 : 2 bytes (11 bits) [ 1111 XXXX ] [ 0XXX XXXX ]
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2288 <= X < 264432 : 3 bytes (18 bits) [ 1111 XXXX ] [ 1XXX XXXX ] [ 0XXX XXXX ]
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264432 <= X < 33818864 : 4 bytes (25 bits) [ 1111 XXXX ] [ 1XXX XXXX ]*2 [ 0XXX XXXX ]
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33818864 <= X < 4328786160 : 5 bytes (32 bits) [ 1111 XXXX ] [ 1XXX XXXX ]*3 [ 0XXX XXXX ]
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...
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For booleans, the value (true or false) is the first bit in the FLAGS
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bitfield. if this bit is set to 0, then the boolean is evaluated as false,
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otherwise, the boolean is evaluated as true.
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3.2. Frames
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------------
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Exchange between HAProxy and agents are made using FRAME packets. All frames
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must be prefixed with their size encoded on 4 bytes in network byte order:
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<FRAME-LENGTH:4 bytes> <FRAME>
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A frame always starts with its type, on one byte, followed by metadata
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containing flags, on 4 bytes and a two variable-length integer representing the
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stream identifier and the frame identifier inside the stream:
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FRAME : <FRAME-TYPE:1 byte> <METADATA> <FRAME-PAYLOAD>
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METADATA : <FLAGS:4 bytes> <STREAM-ID:varint> <FRAME-ID:varint>
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Then comes the frame payload. Depending on the frame type, the payload can be
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of three types: a simple key/value list, a list of messages or a list of
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actions.
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FRAME-PAYLOAD : <LIST-OF-MESSAGES> | <LIST-OF-ACTIONS> | <KV-LIST>
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LIST-OF-MESSAGES : [ <MESSAGE-NAME> <NB-ARGS:1 byte> <KV-LIST> ... ]
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MESSAGE-NAME : <STRING>
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LIST-OF-ACTIONS : [ <ACTION-TYPE:1 byte> <NB-ARGS:1 byte> <ACTION-ARGS> ... ]
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ACTION-ARGS : [ <TYPED-DATA>... ]
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KV-LIST : [ <KV-NAME> <KV-VALUE> ... ]
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KV-NAME : <STRING>
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KV-VALUE : <TYPED-DATA>
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FLAGS : 0 1-31
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+---+-----------+
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| F| |
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| I| RESERVED |
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+--+------------+
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FIN: Indicates that this is the final payload fragment. The first fragment
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may also be the final fragment.
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Frames cannot exceed a maximum size negociated between HAProxy and agents
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during the HELLO handshake. Most of time, payload will be small enough to send
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it in one frame. But when supported by the peer, it will be possible to
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fragment huge payload on many frames. This ability is announced during the
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HELLO handshake and it can be asynmetric (supported by agents but not by
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HAProxy or the opposite). The following rules apply to fragmentation:
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* An unfragemnted payload consists of a single frame with the FIN bit set.
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* A fragemented payload consists of several frames with the FIN bit clear and
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terminated by a single frame with the FIN bit set. All these frames must
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share the same STREAM-ID and FRAME-ID. And, of course, the FRAME-TYPE must
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be the same.
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Beside the support of fragmented payload by a peer, some payload must not be
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fragmented. See below for details.
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IMPORTANT : The maximum size supported by peers for a frame must be greater or
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equal to 256 bytes.
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3.2.1. Frame capabilities
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--------------------------
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Here are the list of official capabilities that HAProxy and agents can support:
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* fragmentation: This is the abaility for a peer to support fragmented
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payload in received frames.
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Unsupported or unknown capabilities are silently ignored, when possible.
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3.2.2. Frame types overview
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----------------------------
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Here are types of frame supported by SPOE. Frames sent by HAProxy come first,
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then frames sent by agents :
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TYPE | ID | DESCRIPTION
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-----------------------------+-----+-------------------------------------
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HAPROXY-HELLO | 1 | Sent by HAProxy when it opens a
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| | connection on an agent.
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| |
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HAPROXY-DISCONNECT | 2 | Sent by HAProxy when it want to close
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| | the connection or in reply to an
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| | AGENT-DISCONNECT frame
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NOTIFY | 3 | Sent by HAProxy to pass information
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| | to an agent
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-----------------------------+-----+-------------------------------------
|
|
AGENT-HELLO | 101 | Reply to a HAPROXY-HELLO frame, when
|
|
| | the connection is established
|
|
| |
|
|
AGENT-DISCONNECT | 102 | Sent by an agent just before closing
|
|
| | the connection
|
|
| |
|
|
ACK | 103 | Sent to acknowledge a NOTIFY frame
|
|
-----------------------------+-----+-------------------------------------
|
|
|
|
Unknown frames may be silently skipped.
|
|
|
|
3.2.3. Workflow
|
|
----------------
|
|
|
|
* Successful HELLO handshake:
|
|
|
|
HAPROXY AGENT SRV
|
|
| HAPROXY-HELLO |
|
|
| (healthcheck: false) |
|
|
| --------------------------> |
|
|
| |
|
|
| AGENT-HELLO |
|
|
| <-------------------------- |
|
|
| |
|
|
|
|
* Successful HELLO healthcheck:
|
|
|
|
HAPROXY AGENT SRV
|
|
| HAPROXY-HELLO |
|
|
| (healthcheck: true) |
|
|
| --------------------------> |
|
|
| |
|
|
| AGENT-HELLO + close() |
|
|
| <-------------------------- |
|
|
| |
|
|
|
|
|
|
* Error encountered by agent during the HELLO handshake:
|
|
|
|
HAPROXY AGENT SRV
|
|
| HAPROXY-HELLO |
|
|
| --------------------------> |
|
|
| |
|
|
| DISCONNECT + close() |
|
|
| <-------------------------- |
|
|
| |
|
|
|
|
* Error encountered by HAProxy during the HELLO handshake:
|
|
|
|
HAPROXY AGENT SRV
|
|
| HAPROXY-HELLO |
|
|
| --------------------------> |
|
|
| |
|
|
| AGENT-HELLO |
|
|
| <-------------------------- |
|
|
| |
|
|
| DISCONNECT |
|
|
| --------------------------> |
|
|
| |
|
|
| DISCONNECT + close() |
|
|
| <-------------------------- |
|
|
| |
|
|
|
|
* Notify / Ack exchange:
|
|
|
|
HAPROXY AGENT SRV
|
|
| NOTIFY |
|
|
| --------------------------> |
|
|
| |
|
|
| ACK |
|
|
| <-------------------------- |
|
|
| |
|
|
|
|
* Connection closed by haproxy:
|
|
|
|
HAPROXY AGENT SRV
|
|
| DISCONNECT |
|
|
| --------------------------> |
|
|
| |
|
|
| DISCONNECT + close() |
|
|
| <-------------------------- |
|
|
| |
|
|
|
|
* Connection closed by agent:
|
|
|
|
HAPROXY AGENT SRV
|
|
| DISCONNECT + close() |
|
|
| <-------------------------- |
|
|
| |
|
|
|
|
3.2.4. Frame: HAPROXY-HELLO
|
|
----------------------------
|
|
|
|
This frame is the first one exchanged between HAProxy and an agent, when the
|
|
connection is established. The payload of this frame is a KV-LIST. It cannot be
|
|
fragmented. STREAM-ID and FRAME-ID are must be set 0.
|
|
|
|
Following items are mandatory in the KV-LIST:
|
|
|
|
* "supported-versions" <STRING>
|
|
|
|
Last SPOP major versions supported by HAProxy. It is a comma-separated list
|
|
of versions, following the format "Major.Minor". Spaces must be ignored, if
|
|
any. When a major version is announced by HAProxy, it means it also support
|
|
all previous minor versions.
|
|
|
|
Example: "2.0, 1.5" means HAProxy supports SPOP 2.0 and 1.0 to 1.5
|
|
|
|
* "max-frame-size" <UINT32>
|
|
|
|
This is the maximum size allowed for a frame. The HAPROXY-HELLO frame must
|
|
be lower or equal to this value.
|
|
|
|
* "capabilities" <STRING>
|
|
|
|
This a comma-separated list of capabilities supported by HAProxy. Spaces
|
|
must be ignored, if any.
|
|
|
|
Following optional items can be added in the KV-LIST:
|
|
|
|
* "healthcheck" <BOOLEAN>
|
|
|
|
If this item is set to TRUE, then the HAPROXY-HELLO frame is sent during a
|
|
SPOE health check. When set to FALSE, this item can be ignored.
|
|
|
|
To finish the HELLO handshake, the agent must return an AGENT-HELLO frame with
|
|
its supported SPOP version, the lower value between its maximum size allowed
|
|
for a frame and the HAProxy one and capabilities it supports. If an error
|
|
occurs or if an incompatibility is detected with the agent configuration, an
|
|
AGENT-DISCONNECT frame must be returned.
|
|
|
|
3.2.5. Frame: AGENT-HELLO
|
|
--------------------------
|
|
|
|
This frame is sent in reply to a HAPROXY-HELLO frame to finish a HELLO
|
|
handshake. As for HAPROXY-HELLO frame, STREAM-ID and FRAME-ID are also set
|
|
0. The payload of this frame is a KV-LIST and it cannot be fragmented.
|
|
|
|
Following items are mandatory in the KV-LIST:
|
|
|
|
* "version" <STRING>
|
|
|
|
This is the SPOP version the agent supports. It must follow the format
|
|
"Major.Minor" and it must be lower or equal than one of major versions
|
|
announced by HAProxy.
|
|
|
|
* "max-frame-size" <UINT32>
|
|
|
|
This is the maximum size allowed for a frame. It must be lower or equal to
|
|
the value in the HAPROXY-HELLO frame. This value will be used for all
|
|
subsequent frames.
|
|
|
|
* "capabilities" <STRING>
|
|
|
|
This a comma-separated list of capabilities supported by agent. Spaces must
|
|
be ignored, if any.
|
|
|
|
At this time, if everything is ok for HAProxy (supported version and valid
|
|
max-frame-size value), the HELLO handshake is successfully completed. Else,
|
|
HAProxy sends a HAPROXY-DISCONNECT frame with the corresponding error.
|
|
|
|
If "healthcheck" item was set to TRUE in the HAPROXY-HELLO frame, the agent can
|
|
safely close the connection without DISCONNECT frame. In all cases, HAProxy
|
|
will close the connexion at the end of the health check.
|
|
|
|
3.2.6. Frame: NOTIFY
|
|
---------------------
|
|
|
|
Information are sent to the agents inside NOTIFY frames. These frames are
|
|
attached to a stream, so STREAM-ID and FRAME-ID must be set. The payload of
|
|
NOTIFY frames is a LIST-OF-MESSAGES and, if supported by agents, it can be
|
|
fragmented.
|
|
|
|
NOTIFY frames must be acknowledge by agents sending an ACK frame, repeating
|
|
right STREAM-ID and FRAME-ID.
|
|
|
|
3.2.7. Frame: ACK
|
|
------------------
|
|
|
|
ACK frames must be sent by agents to reply to NOTIFY frames. STREAM-ID and
|
|
FRAME-ID found in a NOTIFY frame must be reuse in the corresponding ACK
|
|
frame. The payload of ACK frames is a LIST-OF-ACTIONS and, if supported by
|
|
HAProxy, it can be fragmented.
|
|
|
|
3.2.8. Frame: HAPROXY-DISCONNECT
|
|
---------------------------------
|
|
|
|
If an error occurs, at anytime, from the HAProxy side, a HAPROXY-DISCONNECT
|
|
frame is sent with information describing the error. HAProxy will wait an
|
|
AGENT-DISCONNECT frame in reply. All other frames will be ignored. The agent
|
|
must then close the socket.
|
|
|
|
The payload of this frame is a KV-LIST. It cannot be fragmented. STREAM-ID and
|
|
FRAME-ID are must be set 0.
|
|
|
|
Following items are mandatory in the KV-LIST:
|
|
|
|
* "status-code" <UINT32>
|
|
|
|
This is the code corresponding to the error.
|
|
|
|
* "message" <STRING>
|
|
|
|
This is a textual message describing the error.
|
|
|
|
For more information about known errors, see section "Errors & timeouts"
|
|
|
|
3.2.9. Frame: AGENT-DISCONNECT
|
|
-------------------------------
|
|
|
|
If an error occurs, at anytime, from the agent size, a AGENT-DISCONNECT frame
|
|
is sent, with information desribing the error. such frame is also sent in reply
|
|
to a HAPROXY-DISCONNECT. The agent must close the socket just after sending
|
|
this frame.
|
|
|
|
The payload of this frame is a KV-LIST. It cannot be fragmented. STREAM-ID and
|
|
FRAME-ID are must be set 0.
|
|
|
|
Following items are mandatory in the KV-LIST:
|
|
|
|
* "status-code" <UINT32>
|
|
|
|
This is the code corresponding to the error.
|
|
|
|
* "message" <STRING>
|
|
|
|
This is a textual message describing the error.
|
|
|
|
For more information about known errors, see section "Errors & timeouts"
|
|
|
|
3.3. Events & Messages
|
|
-----------------------
|
|
|
|
Information about streams are sent in NOTIFY frames. You can specify which kind
|
|
of information to send by defining "spoe-message" sections in your SPOE
|
|
configuration file. for each "spoe-message" there will be a message in a NOTIFY
|
|
frame when the right event is triggered.
|
|
|
|
A NOTIFY frame is sent for an specific event when there is at least one
|
|
"spoe-message" attached to this event. All messages for an event will be added
|
|
in the same NOTIFY frame.
|
|
|
|
Here is the list of supported events:
|
|
|
|
* on-client-session is triggered when a new client session is created.
|
|
This event is only available for SPOE filters
|
|
declared in a frontend or a listen section.
|
|
|
|
* on-frontend-tcp-request is triggered just before the evaluation of
|
|
"tcp-request content" rules on the frontend side.
|
|
This event is only available for SPOE filters
|
|
declared in a frontend or a listen section.
|
|
|
|
* on-backend-tcp-request is triggered just before the evaluation of
|
|
"tcp-request content" rules on the backend side.
|
|
This event is skipped for SPOE filters declared
|
|
in a listen section.
|
|
|
|
* on-frontend-http-request is triggered just before the evaluation of
|
|
"http-request" rules on the frontend side. This
|
|
event is only available for SPOE filters declared
|
|
in a frontend or a listen section.
|
|
|
|
* on-backend-http-request is triggered just before the evaluation of
|
|
"http-request" rules on the backend side. This
|
|
event is skipped for SPOE filters declared in a
|
|
listen section.
|
|
|
|
* on-server-session is triggered when the session with the server is
|
|
established.
|
|
|
|
* on-tcp-response is triggered just before the evaluation of
|
|
"tcp-response content" rules.
|
|
|
|
* on-http-response is triggered just before the evaluation of
|
|
"http-response" rules.
|
|
|
|
|
|
The stream processing will loop on these events, when triggered, waiting the
|
|
agent reply.
|
|
|
|
3.4. Actions
|
|
-------------
|
|
|
|
An agent must acknowledge each NOTIFY frame by sending the corresponding ACK
|
|
frame. Actions can be added in these frames to dynamically take action on the
|
|
processing of a stream.
|
|
|
|
Here is the list of supported actions:
|
|
|
|
* set-var set the value for an existing variable. 3 arguments must be
|
|
attached to this action: the variable scope (proc, sess, txn,
|
|
req or req), the variable name (a string) and its value.
|
|
|
|
ACTION-SET-VAR : <SET-VAR:1 byte><NB-ARGS:1 byte><VAR-SCOPE:1 byte><VAR-NAME><VAR-VALUE>
|
|
|
|
SET-VAR : <1>
|
|
NB-ARGS : <3>
|
|
VAR-SCOPE : <PROCESS> | <SESSION> | <TRANSACTION> | <REQUEST> | <RESPONSE>
|
|
VAR-NAME : <STRING>
|
|
VAR-VALUE : <TYPED-DATA>
|
|
|
|
PROCESS : <0>
|
|
SESSION : <1>
|
|
TRANSACTION : <2>
|
|
REQUEST : <3>
|
|
RESERVED : <4>
|
|
|
|
* unset-var unset the value for an existing variable. 2 arguments must be
|
|
attached to this action: the variable scope (proc, sess, txn,
|
|
req or req) and the variable name (a string).
|
|
|
|
ACTION-UNSET-VAR : <UNSET-VAR:1 byte><NB-ARGS:1 byte><VAR-SCOPE:1 byte><VAR-NAME>
|
|
|
|
UNSET-VAR : <2>
|
|
NB-ARGS : <2>
|
|
VAR-SCOPE : <PROCESS> | <SESSION> | <TRANSACTION> | <REQUEST> | <RESPONSE>
|
|
VAR-NAME : <STRING>
|
|
|
|
PROCESS : <0>
|
|
SESSION : <1>
|
|
TRANSACTION : <2>
|
|
REQUEST : <3>
|
|
RESERVED : <4>
|
|
|
|
|
|
NOTE: Name of the variables will be automatically prefixed by HAProxy to avoid
|
|
name clashes with other variables used in HAProxy. Moreover, unknown
|
|
variable will be silently ignored.
|
|
|
|
3.5. Error & timeouts
|
|
----------------------
|
|
|
|
Here is the list of all known errors:
|
|
|
|
STATUS CODE | DESCRIPTION
|
|
----------------+--------------------------------------------------------
|
|
0 | normal (no error occurred)
|
|
1 | I/O error
|
|
2 | A timeout occurred
|
|
3 | frame is too big
|
|
4 | invalid frame received
|
|
5 | version value not found
|
|
6 | max-frame-size value not found
|
|
7 | capabilities value not found
|
|
8 | unsupported version
|
|
9 | max-frame-size too big or too small
|
|
99 | an unknown error occurrde
|
|
----------------+--------------------------------------------------------
|
|
|
|
An agent can define its own errors using a not yet assigned status code.
|
|
|
|
IMPORTANT NOTE: By default, for a specific stream, when an abnormal/unexpected
|
|
error occurs, the SPOE is disabled for all the transaction. So
|
|
if you have several events configured, such error on an event
|
|
will disabled all followings. For TCP streams, this will
|
|
disable the SPOE for the whole session. For HTTP streams, this
|
|
will disable it for the transaction (request and response).
|
|
See 'option continue-on-error' to bypass this limitation.
|
|
|
|
To avoid a stream to wait infinitly, you must carefully choose the
|
|
acknowledgement timeout. In most of cases, it will be quiet low. But it depends
|
|
on the responsivness of your service.
|
|
|
|
You must also choose idle timeout carefully. Because connection with your
|
|
service depends on the backend configuration used by the SPOA, it is important
|
|
to use a lower value for idle timeout than the server timeout. Else the
|
|
connection will be closed by HAProxy. The same is true for hello timeout. You
|
|
should choose a lower value than the connect timeout.
|
|
|
|
|
|
/*
|
|
* Local variables:
|
|
* fill-column: 79
|
|
* End:
|
|
*/
|