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9572 lines
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9572 lines
467 KiB
Plaintext
----------------------
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HAProxy
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Configuration Manual
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----------------------
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version 1.5
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willy tarreau
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2011/04/08
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This document covers the configuration language as implemented in the version
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specified above. It does not provide any hint, example or advice. For such
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documentation, please refer to the Reference Manual or the Architecture Manual.
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The summary below is meant to help you search sections by name and navigate
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through the document.
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Note to documentation contributors :
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This document is formated with 80 columns per line, with even number of
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spaces for indentation and without tabs. Please follow these rules strictly
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so that it remains easily printable everywhere. If a line needs to be
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printed verbatim and does not fit, please end each line with a backslash
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('\') and continue on next line, indented by two characters. It is also
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sometimes useful to prefix all output lines (logs, console outs) with 3
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closing angle brackets ('>>>') in order to help get the difference between
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inputs and outputs when it can become ambiguous. If you add sections,
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please update the summary below for easier searching.
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Summary
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-------
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1. Quick reminder about HTTP
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1.1. The HTTP transaction model
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1.2. HTTP request
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1.2.1. The Request line
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1.2.2. The request headers
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1.3. HTTP response
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1.3.1. The Response line
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1.3.2. The response headers
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2. Configuring HAProxy
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2.1. Configuration file format
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2.2. Time format
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2.3. Examples
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3. Global parameters
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3.1. Process management and security
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3.2. Performance tuning
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3.3. Debugging
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3.4. Userlists
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4. Proxies
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4.1. Proxy keywords matrix
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4.2. Alphabetically sorted keywords reference
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5. Server and default-server options
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6. HTTP header manipulation
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7. Using ACLs and pattern extraction
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7.1. Matching integers
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7.2. Matching strings
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7.3. Matching regular expressions (regexes)
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7.4. Matching IPv4 addresses
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7.5. Available matching criteria
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7.5.1. Matching at Layer 4 and below
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7.5.2. Matching contents at Layer 4
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7.5.3. Matching at Layer 7
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7.6. Pre-defined ACLs
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7.7. Using ACLs to form conditions
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7.8. Pattern extraction
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8. Logging
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8.1. Log levels
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8.2. Log formats
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8.2.1. Default log format
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8.2.2. TCP log format
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8.2.3. HTTP log format
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8.3. Advanced logging options
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8.3.1. Disabling logging of external tests
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8.3.2. Logging before waiting for the session to terminate
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8.3.3. Raising log level upon errors
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8.3.4. Disabling logging of successful connections
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8.4. Timing events
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8.5. Session state at disconnection
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8.6. Non-printable characters
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8.7. Capturing HTTP cookies
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8.8. Capturing HTTP headers
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8.9. Examples of logs
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9. Statistics and monitoring
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9.1. CSV format
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9.2. Unix Socket commands
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1. Quick reminder about HTTP
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----------------------------
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When haproxy is running in HTTP mode, both the request and the response are
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fully analyzed and indexed, thus it becomes possible to build matching criteria
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on almost anything found in the contents.
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However, it is important to understand how HTTP requests and responses are
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formed, and how HAProxy decomposes them. It will then become easier to write
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correct rules and to debug existing configurations.
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1.1. The HTTP transaction model
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-------------------------------
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The HTTP protocol is transaction-driven. This means that each request will lead
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to one and only one response. Traditionally, a TCP connection is established
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from the client to the server, a request is sent by the client on the
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connection, the server responds and the connection is closed. A new request
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will involve a new connection :
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[CON1] [REQ1] ... [RESP1] [CLO1] [CON2] [REQ2] ... [RESP2] [CLO2] ...
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In this mode, called the "HTTP close" mode, there are as many connection
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establishments as there are HTTP transactions. Since the connection is closed
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by the server after the response, the client does not need to know the content
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length.
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Due to the transactional nature of the protocol, it was possible to improve it
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to avoid closing a connection between two subsequent transactions. In this mode
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however, it is mandatory that the server indicates the content length for each
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response so that the client does not wait indefinitely. For this, a special
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header is used: "Content-length". This mode is called the "keep-alive" mode :
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[CON] [REQ1] ... [RESP1] [REQ2] ... [RESP2] [CLO] ...
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Its advantages are a reduced latency between transactions, and less processing
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power required on the server side. It is generally better than the close mode,
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but not always because the clients often limit their concurrent connections to
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a smaller value.
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A last improvement in the communications is the pipelining mode. It still uses
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keep-alive, but the client does not wait for the first response to send the
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second request. This is useful for fetching large number of images composing a
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page :
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[CON] [REQ1] [REQ2] ... [RESP1] [RESP2] [CLO] ...
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This can obviously have a tremendous benefit on performance because the network
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latency is eliminated between subsequent requests. Many HTTP agents do not
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correctly support pipelining since there is no way to associate a response with
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the corresponding request in HTTP. For this reason, it is mandatory for the
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server to reply in the exact same order as the requests were received.
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By default HAProxy operates in a tunnel-like mode with regards to persistent
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connections: for each connection it processes the first request and forwards
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everything else (including additional requests) to selected server. Once
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established, the connection is persisted both on the client and server
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sides. Use "option http-server-close" to preserve client persistent connections
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while handling every incoming request individually, dispatching them one after
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another to servers, in HTTP close mode. Use "option httpclose" to switch both
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sides to HTTP close mode. "option forceclose" and "option
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http-pretend-keepalive" help working around servers misbehaving in HTTP close
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mode.
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1.2. HTTP request
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-----------------
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First, let's consider this HTTP request :
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Line Contents
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number
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1 GET /serv/login.php?lang=en&profile=2 HTTP/1.1
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2 Host: www.mydomain.com
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3 User-agent: my small browser
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4 Accept: image/jpeg, image/gif
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5 Accept: image/png
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1.2.1. The Request line
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-----------------------
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Line 1 is the "request line". It is always composed of 3 fields :
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- a METHOD : GET
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- a URI : /serv/login.php?lang=en&profile=2
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- a version tag : HTTP/1.1
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All of them are delimited by what the standard calls LWS (linear white spaces),
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which are commonly spaces, but can also be tabs or line feeds/carriage returns
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followed by spaces/tabs. The method itself cannot contain any colon (':') and
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is limited to alphabetic letters. All those various combinations make it
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desirable that HAProxy performs the splitting itself rather than leaving it to
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the user to write a complex or inaccurate regular expression.
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The URI itself can have several forms :
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- A "relative URI" :
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/serv/login.php?lang=en&profile=2
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It is a complete URL without the host part. This is generally what is
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received by servers, reverse proxies and transparent proxies.
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- An "absolute URI", also called a "URL" :
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http://192.168.0.12:8080/serv/login.php?lang=en&profile=2
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It is composed of a "scheme" (the protocol name followed by '://'), a host
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name or address, optionally a colon (':') followed by a port number, then
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a relative URI beginning at the first slash ('/') after the address part.
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This is generally what proxies receive, but a server supporting HTTP/1.1
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must accept this form too.
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- a star ('*') : this form is only accepted in association with the OPTIONS
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method and is not relayable. It is used to inquiry a next hop's
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capabilities.
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- an address:port combination : 192.168.0.12:80
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This is used with the CONNECT method, which is used to establish TCP
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tunnels through HTTP proxies, generally for HTTPS, but sometimes for
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other protocols too.
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In a relative URI, two sub-parts are identified. The part before the question
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mark is called the "path". It is typically the relative path to static objects
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on the server. The part after the question mark is called the "query string".
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It is mostly used with GET requests sent to dynamic scripts and is very
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specific to the language, framework or application in use.
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1.2.2. The request headers
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--------------------------
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The headers start at the second line. They are composed of a name at the
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beginning of the line, immediately followed by a colon (':'). Traditionally,
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an LWS is added after the colon but that's not required. Then come the values.
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Multiple identical headers may be folded into one single line, delimiting the
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values with commas, provided that their order is respected. This is commonly
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encountered in the "Cookie:" field. A header may span over multiple lines if
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the subsequent lines begin with an LWS. In the example in 1.2, lines 4 and 5
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define a total of 3 values for the "Accept:" header.
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Contrary to a common mis-conception, header names are not case-sensitive, and
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their values are not either if they refer to other header names (such as the
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"Connection:" header).
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The end of the headers is indicated by the first empty line. People often say
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that it's a double line feed, which is not exact, even if a double line feed
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is one valid form of empty line.
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Fortunately, HAProxy takes care of all these complex combinations when indexing
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headers, checking values and counting them, so there is no reason to worry
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about the way they could be written, but it is important not to accuse an
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application of being buggy if it does unusual, valid things.
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Important note:
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As suggested by RFC2616, HAProxy normalizes headers by replacing line breaks
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in the middle of headers by LWS in order to join multi-line headers. This
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is necessary for proper analysis and helps less capable HTTP parsers to work
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correctly and not to be fooled by such complex constructs.
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1.3. HTTP response
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------------------
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An HTTP response looks very much like an HTTP request. Both are called HTTP
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messages. Let's consider this HTTP response :
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Line Contents
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number
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1 HTTP/1.1 200 OK
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2 Content-length: 350
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3 Content-Type: text/html
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As a special case, HTTP supports so called "Informational responses" as status
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codes 1xx. These messages are special in that they don't convey any part of the
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response, they're just used as sort of a signaling message to ask a client to
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continue to post its request for instance. In the case of a status 100 response
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the requested information will be carried by the next non-100 response message
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following the informational one. This implies that multiple responses may be
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sent to a single request, and that this only works when keep-alive is enabled
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(1xx messages are HTTP/1.1 only). HAProxy handles these messages and is able to
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correctly forward and skip them, and only process the next non-100 response. As
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such, these messages are neither logged nor transformed, unless explicitly
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state otherwise. Status 101 messages indicate that the protocol is changing
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over the same connection and that haproxy must switch to tunnel mode, just as
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if a CONNECT had occurred. Then the Upgrade header would contain additional
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information about the type of protocol the connection is switching to.
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1.3.1. The Response line
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------------------------
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Line 1 is the "response line". It is always composed of 3 fields :
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- a version tag : HTTP/1.1
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- a status code : 200
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- a reason : OK
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The status code is always 3-digit. The first digit indicates a general status :
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- 1xx = informational message to be skipped (eg: 100, 101)
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- 2xx = OK, content is following (eg: 200, 206)
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- 3xx = OK, no content following (eg: 302, 304)
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- 4xx = error caused by the client (eg: 401, 403, 404)
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- 5xx = error caused by the server (eg: 500, 502, 503)
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Please refer to RFC2616 for the detailed meaning of all such codes. The
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"reason" field is just a hint, but is not parsed by clients. Anything can be
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found there, but it's a common practice to respect the well-established
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messages. It can be composed of one or multiple words, such as "OK", "Found",
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or "Authentication Required".
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Haproxy may emit the following status codes by itself :
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Code When / reason
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200 access to stats page, and when replying to monitoring requests
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301 when performing a redirection, depending on the configured code
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302 when performing a redirection, depending on the configured code
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303 when performing a redirection, depending on the configured code
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400 for an invalid or too large request
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401 when an authentication is required to perform the action (when
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accessing the stats page)
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403 when a request is forbidden by a "block" ACL or "reqdeny" filter
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408 when the request timeout strikes before the request is complete
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500 when haproxy encounters an unrecoverable internal error, such as a
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memory allocation failure, which should never happen
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502 when the server returns an empty, invalid or incomplete response, or
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when an "rspdeny" filter blocks the response.
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503 when no server was available to handle the request, or in response to
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monitoring requests which match the "monitor fail" condition
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504 when the response timeout strikes before the server responds
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The error 4xx and 5xx codes above may be customized (see "errorloc" in section
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4.2).
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1.3.2. The response headers
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---------------------------
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Response headers work exactly like request headers, and as such, HAProxy uses
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the same parsing function for both. Please refer to paragraph 1.2.2 for more
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details.
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2. Configuring HAProxy
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----------------------
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2.1. Configuration file format
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------------------------------
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HAProxy's configuration process involves 3 major sources of parameters :
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- the arguments from the command-line, which always take precedence
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- the "global" section, which sets process-wide parameters
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- the proxies sections which can take form of "defaults", "listen",
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"frontend" and "backend".
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The configuration file syntax consists in lines beginning with a keyword
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referenced in this manual, optionally followed by one or several parameters
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delimited by spaces. If spaces have to be entered in strings, then they must be
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preceded by a backslash ('\') to be escaped. Backslashes also have to be
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escaped by doubling them.
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2.2. Time format
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----------------
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Some parameters involve values representing time, such as timeouts. These
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values are generally expressed in milliseconds (unless explicitly stated
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otherwise) but may be expressed in any other unit by suffixing the unit to the
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numeric value. It is important to consider this because it will not be repeated
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for every keyword. Supported units are :
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- us : microseconds. 1 microsecond = 1/1000000 second
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- ms : milliseconds. 1 millisecond = 1/1000 second. This is the default.
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- s : seconds. 1s = 1000ms
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- m : minutes. 1m = 60s = 60000ms
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- h : hours. 1h = 60m = 3600s = 3600000ms
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- d : days. 1d = 24h = 1440m = 86400s = 86400000ms
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2.3. Examples
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-------------
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# Simple configuration for an HTTP proxy listening on port 80 on all
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# interfaces and forwarding requests to a single backend "servers" with a
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# single server "server1" listening on 127.0.0.1:8000
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global
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daemon
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maxconn 256
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defaults
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mode http
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timeout connect 5000ms
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timeout client 50000ms
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timeout server 50000ms
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frontend http-in
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bind *:80
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default_backend servers
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backend servers
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server server1 127.0.0.1:8000 maxconn 32
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# The same configuration defined with a single listen block. Shorter but
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# less expressive, especially in HTTP mode.
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global
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daemon
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maxconn 256
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defaults
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mode http
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timeout connect 5000ms
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timeout client 50000ms
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timeout server 50000ms
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listen http-in
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bind *:80
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server server1 127.0.0.1:8000 maxconn 32
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Assuming haproxy is in $PATH, test these configurations in a shell with:
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$ sudo haproxy -f configuration.conf -c
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3. Global parameters
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--------------------
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Parameters in the "global" section are process-wide and often OS-specific. They
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are generally set once for all and do not need being changed once correct. Some
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of them have command-line equivalents.
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The following keywords are supported in the "global" section :
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* Process management and security
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- chroot
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- daemon
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- gid
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- group
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- log
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- log-send-hostname
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- nbproc
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- pidfile
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- uid
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- ulimit-n
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- user
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- stats
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- node
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- description
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- unix-bind
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* Performance tuning
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- maxconn
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- maxpipes
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- noepoll
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- nokqueue
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- nopoll
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- nosepoll
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- nosplice
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- spread-checks
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- tune.bufsize
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- tune.chksize
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- tune.maxaccept
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- tune.maxpollevents
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- tune.maxrewrite
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- tune.rcvbuf.client
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- tune.rcvbuf.server
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- tune.sndbuf.client
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- tune.sndbuf.server
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* Debugging
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- debug
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- quiet
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3.1. Process management and security
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------------------------------------
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chroot <jail dir>
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Changes current directory to <jail dir> and performs a chroot() there before
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dropping privileges. This increases the security level in case an unknown
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vulnerability would be exploited, since it would make it very hard for the
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attacker to exploit the system. This only works when the process is started
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with superuser privileges. It is important to ensure that <jail_dir> is both
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empty and unwritable to anyone.
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daemon
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Makes the process fork into background. This is the recommended mode of
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operation. It is equivalent to the command line "-D" argument. It can be
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disabled by the command line "-db" argument.
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gid <number>
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Changes the process' group ID to <number>. It is recommended that the group
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ID is dedicated to HAProxy or to a small set of similar daemons. HAProxy must
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be started with a user belonging to this group, or with superuser privileges.
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See also "group" and "uid".
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group <group name>
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Similar to "gid" but uses the GID of group name <group name> from /etc/group.
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See also "gid" and "user".
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log <address> <facility> [max level [min level]]
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Adds a global syslog server. Up to two global servers can be defined. They
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will receive logs for startups and exits, as well as all logs from proxies
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configured with "log global".
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<address> can be one of:
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- An IPv4 address optionally followed by a colon and a UDP port. If
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no port is specified, 514 is used by default (the standard syslog
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port).
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- An IPv6 address followed by a colon and optionally a UDP port. If
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no port is specified, 514 is used by default (the standard syslog
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port).
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- A filesystem path to a UNIX domain socket, keeping in mind
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considerations for chroot (be sure the path is accessible inside
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the chroot) and uid/gid (be sure the path is appropriately
|
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writeable).
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<facility> must be one of the 24 standard syslog facilities :
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kern user mail daemon auth syslog lpr news
|
|
uucp cron auth2 ftp ntp audit alert cron2
|
|
local0 local1 local2 local3 local4 local5 local6 local7
|
|
|
|
An optional level can be specified to filter outgoing messages. By default,
|
|
all messages are sent. If a maximum level is specified, only messages with a
|
|
severity at least as important as this level will be sent. An optional minimum
|
|
level can be specified. If it is set, logs emitted with a more severe level
|
|
than this one will be capped to this level. This is used to avoid sending
|
|
"emerg" messages on all terminals on some default syslog configurations.
|
|
Eight levels are known :
|
|
|
|
emerg alert crit err warning notice info debug
|
|
|
|
log-send-hostname [<string>]
|
|
Sets the hostname field in the syslog header. If optional "string" parameter
|
|
is set the header is set to the string contents, otherwise uses the hostname
|
|
of the system. Generally used if one is not relaying logs through an
|
|
intermediate syslog server or for simply customizing the hostname printed in
|
|
the logs.
|
|
|
|
log-tag <string>
|
|
Sets the tag field in the syslog header to this string. It defaults to the
|
|
program name as launched from the command line, which usually is "haproxy".
|
|
Sometimes it can be useful to differentiate between multiple processes
|
|
running on the same host.
|
|
|
|
nbproc <number>
|
|
Creates <number> processes when going daemon. This requires the "daemon"
|
|
mode. By default, only one process is created, which is the recommended mode
|
|
of operation. For systems limited to small sets of file descriptors per
|
|
process, it may be needed to fork multiple daemons. USING MULTIPLE PROCESSES
|
|
IS HARDER TO DEBUG AND IS REALLY DISCOURAGED. See also "daemon".
|
|
|
|
pidfile <pidfile>
|
|
Writes pids of all daemons into file <pidfile>. This option is equivalent to
|
|
the "-p" command line argument. The file must be accessible to the user
|
|
starting the process. See also "daemon".
|
|
|
|
stats socket <path> [{uid | user} <uid>] [{gid | group} <gid>] [mode <mode>]
|
|
[level <level>]
|
|
|
|
Creates a UNIX socket in stream mode at location <path>. Any previously
|
|
existing socket will be backed up then replaced. Connections to this socket
|
|
will return various statistics outputs and even allow some commands to be
|
|
issued. Please consult section 9.2 "Unix Socket commands" for more details.
|
|
|
|
An optional "level" parameter can be specified to restrict the nature of
|
|
the commands that can be issued on the socket :
|
|
- "user" is the least privileged level ; only non-sensitive stats can be
|
|
read, and no change is allowed. It would make sense on systems where it
|
|
is not easy to restrict access to the socket.
|
|
|
|
- "operator" is the default level and fits most common uses. All data can
|
|
be read, and only non-sensible changes are permitted (eg: clear max
|
|
counters).
|
|
|
|
- "admin" should be used with care, as everything is permitted (eg: clear
|
|
all counters).
|
|
|
|
On platforms which support it, it is possible to restrict access to this
|
|
socket by specifying numerical IDs after "uid" and "gid", or valid user and
|
|
group names after the "user" and "group" keywords. It is also possible to
|
|
restrict permissions on the socket by passing an octal value after the "mode"
|
|
keyword (same syntax as chmod). Depending on the platform, the permissions on
|
|
the socket will be inherited from the directory which hosts it, or from the
|
|
user the process is started with.
|
|
|
|
stats timeout <timeout, in milliseconds>
|
|
The default timeout on the stats socket is set to 10 seconds. It is possible
|
|
to change this value with "stats timeout". The value must be passed in
|
|
milliseconds, or be suffixed by a time unit among { us, ms, s, m, h, d }.
|
|
|
|
stats maxconn <connections>
|
|
By default, the stats socket is limited to 10 concurrent connections. It is
|
|
possible to change this value with "stats maxconn".
|
|
|
|
uid <number>
|
|
Changes the process' user ID to <number>. It is recommended that the user ID
|
|
is dedicated to HAProxy or to a small set of similar daemons. HAProxy must
|
|
be started with superuser privileges in order to be able to switch to another
|
|
one. See also "gid" and "user".
|
|
|
|
ulimit-n <number>
|
|
Sets the maximum number of per-process file-descriptors to <number>. By
|
|
default, it is automatically computed, so it is recommended not to use this
|
|
option.
|
|
|
|
unix-bind [ prefix <prefix> ] [ mode <mode> ] [ user <user> ] [ uid <uid> ]
|
|
[ group <group> ] [ gid <gid> ]
|
|
|
|
Fixes common settings to UNIX listening sockets declared in "bind" statements.
|
|
This is mainly used to simplify declaration of those UNIX sockets and reduce
|
|
the risk of errors, since those settings are most commonly required but are
|
|
also process-specific. The <prefix> setting can be used to force all socket
|
|
path to be relative to that directory. This might be needed to access another
|
|
component's chroot. Note that those paths are resolved before haproxy chroots
|
|
itself, so they are absolute. The <mode>, <user>, <uid>, <group> and <gid>
|
|
all have the same meaning as their homonyms used by the "bind" statement. If
|
|
both are specified, the "bind" statement has priority, meaning that the
|
|
"unix-bind" settings may be seen as process-wide default settings.
|
|
|
|
user <user name>
|
|
Similar to "uid" but uses the UID of user name <user name> from /etc/passwd.
|
|
See also "uid" and "group".
|
|
|
|
node <name>
|
|
Only letters, digits, hyphen and underscore are allowed, like in DNS names.
|
|
|
|
This statement is useful in HA configurations where two or more processes or
|
|
servers share the same IP address. By setting a different node-name on all
|
|
nodes, it becomes easy to immediately spot what server is handling the
|
|
traffic.
|
|
|
|
description <text>
|
|
Add a text that describes the instance.
|
|
|
|
Please note that it is required to escape certain characters (# for example)
|
|
and this text is inserted into a html page so you should avoid using
|
|
"<" and ">" characters.
|
|
|
|
|
|
3.2. Performance tuning
|
|
-----------------------
|
|
|
|
maxconn <number>
|
|
Sets the maximum per-process number of concurrent connections to <number>. It
|
|
is equivalent to the command-line argument "-n". Proxies will stop accepting
|
|
connections when this limit is reached. The "ulimit-n" parameter is
|
|
automatically adjusted according to this value. See also "ulimit-n".
|
|
|
|
maxpipes <number>
|
|
Sets the maximum per-process number of pipes to <number>. Currently, pipes
|
|
are only used by kernel-based tcp splicing. Since a pipe contains two file
|
|
descriptors, the "ulimit-n" value will be increased accordingly. The default
|
|
value is maxconn/4, which seems to be more than enough for most heavy usages.
|
|
The splice code dynamically allocates and releases pipes, and can fall back
|
|
to standard copy, so setting this value too low may only impact performance.
|
|
|
|
noepoll
|
|
Disables the use of the "epoll" event polling system on Linux. It is
|
|
equivalent to the command-line argument "-de". The next polling system
|
|
used will generally be "poll". See also "nosepoll", and "nopoll".
|
|
|
|
nokqueue
|
|
Disables the use of the "kqueue" event polling system on BSD. It is
|
|
equivalent to the command-line argument "-dk". The next polling system
|
|
used will generally be "poll". See also "nopoll".
|
|
|
|
nopoll
|
|
Disables the use of the "poll" event polling system. It is equivalent to the
|
|
command-line argument "-dp". The next polling system used will be "select".
|
|
It should never be needed to disable "poll" since it's available on all
|
|
platforms supported by HAProxy. See also "nosepoll", and "nopoll" and
|
|
"nokqueue".
|
|
|
|
nosepoll
|
|
Disables the use of the "speculative epoll" event polling system on Linux. It
|
|
is equivalent to the command-line argument "-ds". The next polling system
|
|
used will generally be "epoll". See also "nosepoll", and "nopoll".
|
|
|
|
nosplice
|
|
Disables the use of kernel tcp splicing between sockets on Linux. It is
|
|
equivalent to the command line argument "-dS". Data will then be copied
|
|
using conventional and more portable recv/send calls. Kernel tcp splicing is
|
|
limited to some very recent instances of kernel 2.6. Most versions between
|
|
2.6.25 and 2.6.28 are buggy and will forward corrupted data, so they must not
|
|
be used. This option makes it easier to globally disable kernel splicing in
|
|
case of doubt. See also "option splice-auto", "option splice-request" and
|
|
"option splice-response".
|
|
|
|
spread-checks <0..50, in percent>
|
|
Sometimes it is desirable to avoid sending health checks to servers at exact
|
|
intervals, for instance when many logical servers are located on the same
|
|
physical server. With the help of this parameter, it becomes possible to add
|
|
some randomness in the check interval between 0 and +/- 50%. A value between
|
|
2 and 5 seems to show good results. The default value remains at 0.
|
|
|
|
tune.bufsize <number>
|
|
Sets the buffer size to this size (in bytes). Lower values allow more
|
|
sessions to coexist in the same amount of RAM, and higher values allow some
|
|
applications with very large cookies to work. The default value is 16384 and
|
|
can be changed at build time. It is strongly recommended not to change this
|
|
from the default value, as very low values will break some services such as
|
|
statistics, and values larger than default size will increase memory usage,
|
|
possibly causing the system to run out of memory. At least the global maxconn
|
|
parameter should be decreased by the same factor as this one is increased.
|
|
|
|
tune.chksize <number>
|
|
Sets the check buffer size to this size (in bytes). Higher values may help
|
|
find string or regex patterns in very large pages, though doing so may imply
|
|
more memory and CPU usage. The default value is 16384 and can be changed at
|
|
build time. It is not recommended to change this value, but to use better
|
|
checks whenever possible.
|
|
|
|
tune.maxaccept <number>
|
|
Sets the maximum number of consecutive accepts that a process may perform on
|
|
a single wake up. High values give higher priority to high connection rates,
|
|
while lower values give higher priority to already established connections.
|
|
This value is limited to 100 by default in single process mode. However, in
|
|
multi-process mode (nbproc > 1), it defaults to 8 so that when one process
|
|
wakes up, it does not take all incoming connections for itself and leaves a
|
|
part of them to other processes. Setting this value to -1 completely disables
|
|
the limitation. It should normally not be needed to tweak this value.
|
|
|
|
tune.maxpollevents <number>
|
|
Sets the maximum amount of events that can be processed at once in a call to
|
|
the polling system. The default value is adapted to the operating system. It
|
|
has been noticed that reducing it below 200 tends to slightly decrease
|
|
latency at the expense of network bandwidth, and increasing it above 200
|
|
tends to trade latency for slightly increased bandwidth.
|
|
|
|
tune.maxrewrite <number>
|
|
Sets the reserved buffer space to this size in bytes. The reserved space is
|
|
used for header rewriting or appending. The first reads on sockets will never
|
|
fill more than bufsize-maxrewrite. Historically it has defaulted to half of
|
|
bufsize, though that does not make much sense since there are rarely large
|
|
numbers of headers to add. Setting it too high prevents processing of large
|
|
requests or responses. Setting it too low prevents addition of new headers
|
|
to already large requests or to POST requests. It is generally wise to set it
|
|
to about 1024. It is automatically readjusted to half of bufsize if it is
|
|
larger than that. This means you don't have to worry about it when changing
|
|
bufsize.
|
|
|
|
tune.rcvbuf.client <number>
|
|
tune.rcvbuf.server <number>
|
|
Forces the kernel socket receive buffer size on the client or the server side
|
|
to the specified value in bytes. This value applies to all TCP/HTTP frontends
|
|
and backends. It should normally never be set, and the default size (0) lets
|
|
the kernel autotune this value depending on the amount of available memory.
|
|
However it can sometimes help to set it to very low values (eg: 4096) in
|
|
order to save kernel memory by preventing it from buffering too large amounts
|
|
of received data. Lower values will significantly increase CPU usage though.
|
|
|
|
tune.sndbuf.client <number>
|
|
tune.sndbuf.server <number>
|
|
Forces the kernel socket send buffer size on the client or the server side to
|
|
the specified value in bytes. This value applies to all TCP/HTTP frontends
|
|
and backends. It should normally never be set, and the default size (0) lets
|
|
the kernel autotune this value depending on the amount of available memory.
|
|
However it can sometimes help to set it to very low values (eg: 4096) in
|
|
order to save kernel memory by preventing it from buffering too large amounts
|
|
of received data. Lower values will significantly increase CPU usage though.
|
|
Another use case is to prevent write timeouts with extremely slow clients due
|
|
to the kernel waiting for a large part of the buffer to be read before
|
|
notifying haproxy again.
|
|
|
|
|
|
3.3. Debugging
|
|
--------------
|
|
|
|
debug
|
|
Enables debug mode which dumps to stdout all exchanges, and disables forking
|
|
into background. It is the equivalent of the command-line argument "-d". It
|
|
should never be used in a production configuration since it may prevent full
|
|
system startup.
|
|
|
|
quiet
|
|
Do not display any message during startup. It is equivalent to the command-
|
|
line argument "-q".
|
|
|
|
|
|
3.4. Userlists
|
|
--------------
|
|
It is possible to control access to frontend/backend/listen sections or to
|
|
http stats by allowing only authenticated and authorized users. To do this,
|
|
it is required to create at least one userlist and to define users.
|
|
|
|
userlist <listname>
|
|
Creates new userlist with name <listname>. Many independent userlists can be
|
|
used to store authentication & authorization data for independent customers.
|
|
|
|
group <groupname> [users <user>,<user>,(...)]
|
|
Adds group <groupname> to the current userlist. It is also possible to
|
|
attach users to this group by using a comma separated list of names
|
|
proceeded by "users" keyword.
|
|
|
|
user <username> [password|insecure-password <password>]
|
|
[groups <group>,<group>,(...)]
|
|
Adds user <username> to the current userlist. Both secure (encrypted) and
|
|
insecure (unencrypted) passwords can be used. Encrypted passwords are
|
|
evaluated using the crypt(3) function so depending of the system's
|
|
capabilities, different algorithms are supported. For example modern Glibc
|
|
based Linux system supports MD5, SHA-256, SHA-512 and of course classic,
|
|
DES-based method of crypting passwords.
|
|
|
|
|
|
Example:
|
|
userlist L1
|
|
group G1 users tiger,scott
|
|
group G2 users xdb,scott
|
|
|
|
user tiger password $6$k6y3o.eP$JlKBx9za9667qe4(...)xHSwRv6J.C0/D7cV91
|
|
user scott insecure-password elgato
|
|
user xdb insecure-password hello
|
|
|
|
userlist L2
|
|
group G1
|
|
group G2
|
|
|
|
user tiger password $6$k6y3o.eP$JlKBx(...)xHSwRv6J.C0/D7cV91 groups G1
|
|
user scott insecure-password elgato groups G1,G2
|
|
user xdb insecure-password hello groups G2
|
|
|
|
Please note that both lists are functionally identical.
|
|
|
|
|
|
3.5. Peers
|
|
--------------
|
|
It is possible to synchronize server entries in stick tables between several
|
|
haproxy instances over TCP connections in a multi-master fashion. Each instance
|
|
pushes its local updates and insertions to remote peers. Server IDs are used to
|
|
identify servers remotely, so it is important that configurations look similar
|
|
or at least that the same IDs are forced on each server on all participants.
|
|
Interrupted exchanges are automatically detected and recovered from the last
|
|
known point. In addition, during a soft restart, the old process connects to
|
|
the new one using such a TCP connection to push all its entries before the new
|
|
process tries to connect to other peers. That ensures very fast replication
|
|
during a reload, it typically takes a fraction of a second even for large
|
|
tables.
|
|
|
|
peers <peersect>
|
|
Creates a new peer list with name <peersect>. It is an independant section,
|
|
which is referenced by one or more stick-tables.
|
|
|
|
peer <peername> <ip>:<port>
|
|
Defines a peer inside a peers section.
|
|
If <peername> is set to the local peer name (by default hostname, or forced
|
|
using "-L" command line option), haproxy will listen for incoming remote peer
|
|
connection on <ip>:<port>. Otherwise, <ip>:<port> defines where to connect to
|
|
to join the remote peer, and <peername> is used at the protocol level to
|
|
identify and validate the remote peer on the server side.
|
|
|
|
During a soft restart, local peer <ip>:<port> is used by the old instance to
|
|
connect the new one and initiate a complete replication (teaching process).
|
|
|
|
It is strongly recommended to have the exact same peers declaration on all
|
|
peers and to only rely on the "-L" command line argument to change the local
|
|
peer name. This makes it easier to maintain coherent configuration files
|
|
across all peers.
|
|
|
|
Example:
|
|
peers mypeers
|
|
peer haproxy1 192.168.0.1:1024
|
|
peer haproxy2 192.168.0.2:1024
|
|
peer haproxy3 10.2.0.1:1024
|
|
|
|
backend mybackend
|
|
mode tcp
|
|
balance roundrobin
|
|
stick-table type ip size 20k peers mypeers
|
|
stick on src
|
|
|
|
server srv1 192.168.0.30:80
|
|
server srv2 192.168.0.31:80
|
|
|
|
|
|
4. Proxies
|
|
----------
|
|
|
|
Proxy configuration can be located in a set of sections :
|
|
- defaults <name>
|
|
- frontend <name>
|
|
- backend <name>
|
|
- listen <name>
|
|
|
|
A "defaults" section sets default parameters for all other sections following
|
|
its declaration. Those default parameters are reset by the next "defaults"
|
|
section. See below for the list of parameters which can be set in a "defaults"
|
|
section. The name is optional but its use is encouraged for better readability.
|
|
|
|
A "frontend" section describes a set of listening sockets accepting client
|
|
connections.
|
|
|
|
A "backend" section describes a set of servers to which the proxy will connect
|
|
to forward incoming connections.
|
|
|
|
A "listen" section defines a complete proxy with its frontend and backend
|
|
parts combined in one section. It is generally useful for TCP-only traffic.
|
|
|
|
All proxy names must be formed from upper and lower case letters, digits,
|
|
'-' (dash), '_' (underscore) , '.' (dot) and ':' (colon). ACL names are
|
|
case-sensitive, which means that "www" and "WWW" are two different proxies.
|
|
|
|
Historically, all proxy names could overlap, it just caused troubles in the
|
|
logs. Since the introduction of content switching, it is mandatory that two
|
|
proxies with overlapping capabilities (frontend/backend) have different names.
|
|
However, it is still permitted that a frontend and a backend share the same
|
|
name, as this configuration seems to be commonly encountered.
|
|
|
|
Right now, two major proxy modes are supported : "tcp", also known as layer 4,
|
|
and "http", also known as layer 7. In layer 4 mode, HAProxy simply forwards
|
|
bidirectional traffic between two sides. In layer 7 mode, HAProxy analyzes the
|
|
protocol, and can interact with it by allowing, blocking, switching, adding,
|
|
modifying, or removing arbitrary contents in requests or responses, based on
|
|
arbitrary criteria.
|
|
|
|
|
|
4.1. Proxy keywords matrix
|
|
--------------------------
|
|
|
|
The following list of keywords is supported. Most of them may only be used in a
|
|
limited set of section types. Some of them are marked as "deprecated" because
|
|
they are inherited from an old syntax which may be confusing or functionally
|
|
limited, and there are new recommended keywords to replace them. Keywords
|
|
marked with "(*)" can be optionally inverted using the "no" prefix, eg. "no
|
|
option contstats". This makes sense when the option has been enabled by default
|
|
and must be disabled for a specific instance. Such options may also be prefixed
|
|
with "default" in order to restore default settings regardless of what has been
|
|
specified in a previous "defaults" section.
|
|
|
|
|
|
keyword defaults frontend listen backend
|
|
------------------------------------+----------+----------+---------+---------
|
|
acl - X X X
|
|
appsession - - X X
|
|
backlog X X X -
|
|
balance X - X X
|
|
bind - X X -
|
|
bind-process X X X X
|
|
block - X X X
|
|
capture cookie - X X -
|
|
capture request header - X X -
|
|
capture response header - X X -
|
|
clitimeout (deprecated) X X X -
|
|
contimeout (deprecated) X - X X
|
|
cookie X - X X
|
|
default-server X - X X
|
|
default_backend X X X -
|
|
description - X X X
|
|
disabled X X X X
|
|
dispatch - - X X
|
|
enabled X X X X
|
|
errorfile X X X X
|
|
errorloc X X X X
|
|
errorloc302 X X X X
|
|
-- keyword -------------------------- defaults - frontend - listen -- backend -
|
|
errorloc303 X X X X
|
|
force-persist - X X X
|
|
fullconn X - X X
|
|
grace X X X X
|
|
hash-type X - X X
|
|
http-check disable-on-404 X - X X
|
|
http-check expect - - X X
|
|
http-check send-state X - X X
|
|
http-request - X X X
|
|
id - X X X
|
|
ignore-persist - X X X
|
|
log X X X X
|
|
maxconn X X X -
|
|
mode X X X X
|
|
monitor fail - X X -
|
|
monitor-net X X X -
|
|
monitor-uri X X X -
|
|
option abortonclose (*) X - X X
|
|
option accept-invalid-http-request (*) X X X -
|
|
option accept-invalid-http-response (*) X - X X
|
|
option allbackups (*) X - X X
|
|
option checkcache (*) X - X X
|
|
option clitcpka (*) X X X -
|
|
option contstats (*) X X X -
|
|
option dontlog-normal (*) X X X -
|
|
option dontlognull (*) X X X -
|
|
option forceclose (*) X X X X
|
|
-- keyword -------------------------- defaults - frontend - listen -- backend -
|
|
option forwardfor X X X X
|
|
option http-no-delay (*) X X X X
|
|
option http-pretend-keepalive (*) X X X X
|
|
option http-server-close (*) X X X X
|
|
option http-use-proxy-header (*) X X X -
|
|
option httpchk X - X X
|
|
option httpclose (*) X X X X
|
|
option httplog X X X X
|
|
option http_proxy (*) X X X X
|
|
option independant-streams (*) X X X X
|
|
option ldap-check X - X X
|
|
option log-health-checks (*) X - X X
|
|
option log-separate-errors (*) X X X -
|
|
option logasap (*) X X X -
|
|
option mysql-check X - X X
|
|
option pgsql-check X - X X
|
|
option nolinger (*) X X X X
|
|
option originalto X X X X
|
|
option persist (*) X - X X
|
|
option redispatch (*) X - X X
|
|
option smtpchk X - X X
|
|
option socket-stats (*) X X X -
|
|
option splice-auto (*) X X X X
|
|
option splice-request (*) X X X X
|
|
option splice-response (*) X X X X
|
|
option srvtcpka (*) X - X X
|
|
option ssl-hello-chk X - X X
|
|
-- keyword -------------------------- defaults - frontend - listen -- backend -
|
|
option tcp-smart-accept (*) X X X -
|
|
option tcp-smart-connect (*) X - X X
|
|
option tcpka X X X X
|
|
option tcplog X X X X
|
|
option transparent (*) X - X X
|
|
persist rdp-cookie X - X X
|
|
rate-limit sessions X X X -
|
|
redirect - X X X
|
|
redisp (deprecated) X - X X
|
|
redispatch (deprecated) X - X X
|
|
reqadd - X X X
|
|
reqallow - X X X
|
|
reqdel - X X X
|
|
reqdeny - X X X
|
|
reqiallow - X X X
|
|
reqidel - X X X
|
|
reqideny - X X X
|
|
reqipass - X X X
|
|
reqirep - X X X
|
|
reqisetbe - X X X
|
|
reqitarpit - X X X
|
|
reqpass - X X X
|
|
reqrep - X X X
|
|
-- keyword -------------------------- defaults - frontend - listen -- backend -
|
|
reqsetbe - X X X
|
|
reqtarpit - X X X
|
|
retries X - X X
|
|
rspadd - X X X
|
|
rspdel - X X X
|
|
rspdeny - X X X
|
|
rspidel - X X X
|
|
rspideny - X X X
|
|
rspirep - X X X
|
|
rsprep - X X X
|
|
server - - X X
|
|
source X - X X
|
|
srvtimeout (deprecated) X - X X
|
|
stats admin - - X X
|
|
stats auth X - X X
|
|
stats enable X - X X
|
|
stats hide-version X - X X
|
|
stats http-request - - X X
|
|
stats realm X - X X
|
|
stats refresh X - X X
|
|
stats scope X - X X
|
|
stats show-desc X - X X
|
|
stats show-legends X - X X
|
|
stats show-node X - X X
|
|
stats uri X - X X
|
|
-- keyword -------------------------- defaults - frontend - listen -- backend -
|
|
stick match - - X X
|
|
stick on - - X X
|
|
stick store-request - - X X
|
|
stick-table - - X X
|
|
tcp-request connection - X X -
|
|
tcp-request content - X X X
|
|
tcp-request inspect-delay - X X X
|
|
tcp-response content - - X X
|
|
tcp-response inspect-delay - - X X
|
|
timeout check X - X X
|
|
timeout client X X X -
|
|
timeout clitimeout (deprecated) X X X -
|
|
timeout connect X - X X
|
|
timeout contimeout (deprecated) X - X X
|
|
timeout http-keep-alive X X X X
|
|
timeout http-request X X X X
|
|
timeout queue X - X X
|
|
timeout server X - X X
|
|
timeout srvtimeout (deprecated) X - X X
|
|
timeout tarpit X X X X
|
|
transparent (deprecated) X - X X
|
|
use_backend - X X -
|
|
------------------------------------+----------+----------+---------+---------
|
|
keyword defaults frontend listen backend
|
|
|
|
|
|
4.2. Alphabetically sorted keywords reference
|
|
---------------------------------------------
|
|
|
|
This section provides a description of each keyword and its usage.
|
|
|
|
|
|
acl <aclname> <criterion> [flags] [operator] <value> ...
|
|
Declare or complete an access list.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Example:
|
|
acl invalid_src src 0.0.0.0/7 224.0.0.0/3
|
|
acl invalid_src src_port 0:1023
|
|
acl local_dst hdr(host) -i localhost
|
|
|
|
See section 7 about ACL usage.
|
|
|
|
|
|
appsession <cookie> len <length> timeout <holdtime>
|
|
[request-learn] [prefix] [mode <path-parameters|query-string>]
|
|
Define session stickiness on an existing application cookie.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | no | yes | yes
|
|
Arguments :
|
|
<cookie> this is the name of the cookie used by the application and which
|
|
HAProxy will have to learn for each new session.
|
|
|
|
<length> this is the max number of characters that will be memorized and
|
|
checked in each cookie value.
|
|
|
|
<holdtime> this is the time after which the cookie will be removed from
|
|
memory if unused. If no unit is specified, this time is in
|
|
milliseconds.
|
|
|
|
request-learn
|
|
If this option is specified, then haproxy will be able to learn
|
|
the cookie found in the request in case the server does not
|
|
specify any in response. This is typically what happens with
|
|
PHPSESSID cookies, or when haproxy's session expires before
|
|
the application's session and the correct server is selected.
|
|
It is recommended to specify this option to improve reliability.
|
|
|
|
prefix When this option is specified, haproxy will match on the cookie
|
|
prefix (or URL parameter prefix). The appsession value is the
|
|
data following this prefix.
|
|
|
|
Example :
|
|
appsession ASPSESSIONID len 64 timeout 3h prefix
|
|
|
|
This will match the cookie ASPSESSIONIDXXXX=XXXXX,
|
|
the appsession value will be XXXX=XXXXX.
|
|
|
|
mode This option allows to change the URL parser mode.
|
|
2 modes are currently supported :
|
|
- path-parameters :
|
|
The parser looks for the appsession in the path parameters
|
|
part (each parameter is separated by a semi-colon), which is
|
|
convenient for JSESSIONID for example.
|
|
This is the default mode if the option is not set.
|
|
- query-string :
|
|
In this mode, the parser will look for the appsession in the
|
|
query string.
|
|
|
|
When an application cookie is defined in a backend, HAProxy will check when
|
|
the server sets such a cookie, and will store its value in a table, and
|
|
associate it with the server's identifier. Up to <length> characters from
|
|
the value will be retained. On each connection, haproxy will look for this
|
|
cookie both in the "Cookie:" headers, and as a URL parameter (depending on
|
|
the mode used). If a known value is found, the client will be directed to the
|
|
server associated with this value. Otherwise, the load balancing algorithm is
|
|
applied. Cookies are automatically removed from memory when they have been
|
|
unused for a duration longer than <holdtime>.
|
|
|
|
The definition of an application cookie is limited to one per backend.
|
|
|
|
Note : Consider not using this feature in multi-process mode (nbproc > 1)
|
|
unless you know what you do : memory is not shared between the
|
|
processes, which can result in random behaviours.
|
|
|
|
Example :
|
|
appsession JSESSIONID len 52 timeout 3h
|
|
|
|
See also : "cookie", "capture cookie", "balance", "stick", "stick-table",
|
|
"ignore-persist", "nbproc" and "bind-process".
|
|
|
|
|
|
backlog <conns>
|
|
Give hints to the system about the approximate listen backlog desired size
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments :
|
|
<conns> is the number of pending connections. Depending on the operating
|
|
system, it may represent the number of already acknowledged
|
|
connections, of non-acknowledged ones, or both.
|
|
|
|
In order to protect against SYN flood attacks, one solution is to increase
|
|
the system's SYN backlog size. Depending on the system, sometimes it is just
|
|
tunable via a system parameter, sometimes it is not adjustable at all, and
|
|
sometimes the system relies on hints given by the application at the time of
|
|
the listen() syscall. By default, HAProxy passes the frontend's maxconn value
|
|
to the listen() syscall. On systems which can make use of this value, it can
|
|
sometimes be useful to be able to specify a different value, hence this
|
|
backlog parameter.
|
|
|
|
On Linux 2.4, the parameter is ignored by the system. On Linux 2.6, it is
|
|
used as a hint and the system accepts up to the smallest greater power of
|
|
two, and never more than some limits (usually 32768).
|
|
|
|
See also : "maxconn" and the target operating system's tuning guide.
|
|
|
|
|
|
balance <algorithm> [ <arguments> ]
|
|
balance url_param <param> [check_post [<max_wait>]]
|
|
Define the load balancing algorithm to be used in a backend.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<algorithm> is the algorithm used to select a server when doing load
|
|
balancing. This only applies when no persistence information
|
|
is available, or when a connection is redispatched to another
|
|
server. <algorithm> may be one of the following :
|
|
|
|
roundrobin Each server is used in turns, according to their weights.
|
|
This is the smoothest and fairest algorithm when the server's
|
|
processing time remains equally distributed. This algorithm
|
|
is dynamic, which means that server weights may be adjusted
|
|
on the fly for slow starts for instance. It is limited by
|
|
design to 4128 active servers per backend. Note that in some
|
|
large farms, when a server becomes up after having been down
|
|
for a very short time, it may sometimes take a few hundreds
|
|
requests for it to be re-integrated into the farm and start
|
|
receiving traffic. This is normal, though very rare. It is
|
|
indicated here in case you would have the chance to observe
|
|
it, so that you don't worry.
|
|
|
|
static-rr Each server is used in turns, according to their weights.
|
|
This algorithm is as similar to roundrobin except that it is
|
|
static, which means that changing a server's weight on the
|
|
fly will have no effect. On the other hand, it has no design
|
|
limitation on the number of servers, and when a server goes
|
|
up, it is always immediately reintroduced into the farm, once
|
|
the full map is recomputed. It also uses slightly less CPU to
|
|
run (around -1%).
|
|
|
|
leastconn The server with the lowest number of connections receives the
|
|
connection. Round-robin is performed within groups of servers
|
|
of the same load to ensure that all servers will be used. Use
|
|
of this algorithm is recommended where very long sessions are
|
|
expected, such as LDAP, SQL, TSE, etc... but is not very well
|
|
suited for protocols using short sessions such as HTTP. This
|
|
algorithm is dynamic, which means that server weights may be
|
|
adjusted on the fly for slow starts for instance.
|
|
|
|
source The source IP address is hashed and divided by the total
|
|
weight of the running servers to designate which server will
|
|
receive the request. This ensures that the same client IP
|
|
address will always reach the same server as long as no
|
|
server goes down or up. If the hash result changes due to the
|
|
number of running servers changing, many clients will be
|
|
directed to a different server. This algorithm is generally
|
|
used in TCP mode where no cookie may be inserted. It may also
|
|
be used on the Internet to provide a best-effort stickiness
|
|
to clients which refuse session cookies. This algorithm is
|
|
static by default, which means that changing a server's
|
|
weight on the fly will have no effect, but this can be
|
|
changed using "hash-type".
|
|
|
|
uri The left part of the URI (before the question mark) is hashed
|
|
and divided by the total weight of the running servers. The
|
|
result designates which server will receive the request. This
|
|
ensures that a same URI will always be directed to the same
|
|
server as long as no server goes up or down. This is used
|
|
with proxy caches and anti-virus proxies in order to maximize
|
|
the cache hit rate. Note that this algorithm may only be used
|
|
in an HTTP backend. This algorithm is static by default,
|
|
which means that changing a server's weight on the fly will
|
|
have no effect, but this can be changed using "hash-type".
|
|
|
|
This algorithm support two optional parameters "len" and
|
|
"depth", both followed by a positive integer number. These
|
|
options may be helpful when it is needed to balance servers
|
|
based on the beginning of the URI only. The "len" parameter
|
|
indicates that the algorithm should only consider that many
|
|
characters at the beginning of the URI to compute the hash.
|
|
Note that having "len" set to 1 rarely makes sense since most
|
|
URIs start with a leading "/".
|
|
|
|
The "depth" parameter indicates the maximum directory depth
|
|
to be used to compute the hash. One level is counted for each
|
|
slash in the request. If both parameters are specified, the
|
|
evaluation stops when either is reached.
|
|
|
|
url_param The URL parameter specified in argument will be looked up in
|
|
the query string of each HTTP GET request.
|
|
|
|
If the modifier "check_post" is used, then an HTTP POST
|
|
request entity will be searched for the parameter argument,
|
|
when it is not found in a query string after a question mark
|
|
('?') in the URL. Optionally, specify a number of octets to
|
|
wait for before attempting to search the message body. If the
|
|
entity can not be searched, then round robin is used for each
|
|
request. For instance, if your clients always send the LB
|
|
parameter in the first 128 bytes, then specify that. The
|
|
default is 48. The entity data will not be scanned until the
|
|
required number of octets have arrived at the gateway, this
|
|
is the minimum of: (default/max_wait, Content-Length or first
|
|
chunk length). If Content-Length is missing or zero, it does
|
|
not need to wait for more data than the client promised to
|
|
send. When Content-Length is present and larger than
|
|
<max_wait>, then waiting is limited to <max_wait> and it is
|
|
assumed that this will be enough data to search for the
|
|
presence of the parameter. In the unlikely event that
|
|
Transfer-Encoding: chunked is used, only the first chunk is
|
|
scanned. Parameter values separated by a chunk boundary, may
|
|
be randomly balanced if at all.
|
|
|
|
If the parameter is found followed by an equal sign ('=') and
|
|
a value, then the value is hashed and divided by the total
|
|
weight of the running servers. The result designates which
|
|
server will receive the request.
|
|
|
|
This is used to track user identifiers in requests and ensure
|
|
that a same user ID will always be sent to the same server as
|
|
long as no server goes up or down. If no value is found or if
|
|
the parameter is not found, then a round robin algorithm is
|
|
applied. Note that this algorithm may only be used in an HTTP
|
|
backend. This algorithm is static by default, which means
|
|
that changing a server's weight on the fly will have no
|
|
effect, but this can be changed using "hash-type".
|
|
|
|
hdr(name) The HTTP header <name> will be looked up in each HTTP request.
|
|
Just as with the equivalent ACL 'hdr()' function, the header
|
|
name in parenthesis is not case sensitive. If the header is
|
|
absent or if it does not contain any value, the roundrobin
|
|
algorithm is applied instead.
|
|
|
|
An optional 'use_domain_only' parameter is available, for
|
|
reducing the hash algorithm to the main domain part with some
|
|
specific headers such as 'Host'. For instance, in the Host
|
|
value "haproxy.1wt.eu", only "1wt" will be considered.
|
|
|
|
This algorithm is static by default, which means that
|
|
changing a server's weight on the fly will have no effect,
|
|
but this can be changed using "hash-type".
|
|
|
|
rdp-cookie
|
|
rdp-cookie(name)
|
|
The RDP cookie <name> (or "mstshash" if omitted) will be
|
|
looked up and hashed for each incoming TCP request. Just as
|
|
with the equivalent ACL 'req_rdp_cookie()' function, the name
|
|
is not case-sensitive. This mechanism is useful as a degraded
|
|
persistence mode, as it makes it possible to always send the
|
|
same user (or the same session ID) to the same server. If the
|
|
cookie is not found, the normal roundrobin algorithm is
|
|
used instead.
|
|
|
|
Note that for this to work, the frontend must ensure that an
|
|
RDP cookie is already present in the request buffer. For this
|
|
you must use 'tcp-request content accept' rule combined with
|
|
a 'req_rdp_cookie_cnt' ACL.
|
|
|
|
This algorithm is static by default, which means that
|
|
changing a server's weight on the fly will have no effect,
|
|
but this can be changed using "hash-type".
|
|
|
|
<arguments> is an optional list of arguments which may be needed by some
|
|
algorithms. Right now, only "url_param" and "uri" support an
|
|
optional argument.
|
|
|
|
balance uri [len <len>] [depth <depth>]
|
|
balance url_param <param> [check_post [<max_wait>]]
|
|
|
|
The load balancing algorithm of a backend is set to roundrobin when no other
|
|
algorithm, mode nor option have been set. The algorithm may only be set once
|
|
for each backend.
|
|
|
|
Examples :
|
|
balance roundrobin
|
|
balance url_param userid
|
|
balance url_param session_id check_post 64
|
|
balance hdr(User-Agent)
|
|
balance hdr(host)
|
|
balance hdr(Host) use_domain_only
|
|
|
|
Note: the following caveats and limitations on using the "check_post"
|
|
extension with "url_param" must be considered :
|
|
|
|
- all POST requests are eligible for consideration, because there is no way
|
|
to determine if the parameters will be found in the body or entity which
|
|
may contain binary data. Therefore another method may be required to
|
|
restrict consideration of POST requests that have no URL parameters in
|
|
the body. (see acl reqideny http_end)
|
|
|
|
- using a <max_wait> value larger than the request buffer size does not
|
|
make sense and is useless. The buffer size is set at build time, and
|
|
defaults to 16 kB.
|
|
|
|
- Content-Encoding is not supported, the parameter search will probably
|
|
fail; and load balancing will fall back to Round Robin.
|
|
|
|
- Expect: 100-continue is not supported, load balancing will fall back to
|
|
Round Robin.
|
|
|
|
- Transfer-Encoding (RFC2616 3.6.1) is only supported in the first chunk.
|
|
If the entire parameter value is not present in the first chunk, the
|
|
selection of server is undefined (actually, defined by how little
|
|
actually appeared in the first chunk).
|
|
|
|
- This feature does not support generation of a 100, 411 or 501 response.
|
|
|
|
- In some cases, requesting "check_post" MAY attempt to scan the entire
|
|
contents of a message body. Scanning normally terminates when linear
|
|
white space or control characters are found, indicating the end of what
|
|
might be a URL parameter list. This is probably not a concern with SGML
|
|
type message bodies.
|
|
|
|
See also : "dispatch", "cookie", "appsession", "transparent", "hash-type" and
|
|
"http_proxy".
|
|
|
|
|
|
bind [<address>]:<port_range> [, ...]
|
|
bind [<address>]:<port_range> [, ...] interface <interface>
|
|
bind [<address>]:<port_range> [, ...] mss <maxseg>
|
|
bind [<address>]:<port_range> [, ...] transparent
|
|
bind [<address>]:<port_range> [, ...] id <id>
|
|
bind [<address>]:<port_range> [, ...] name <name>
|
|
bind [<address>]:<port_range> [, ...] defer-accept
|
|
bind [<address>]:<port_range> [, ...] accept-proxy
|
|
bind /<path> [, ...]
|
|
bind /<path> [, ...] mode <mode>
|
|
bind /<path> [, ...] [ user <user> | uid <uid> ]
|
|
bind /<path> [, ...] [ group <user> | gid <gid> ]
|
|
Define one or several listening addresses and/or ports in a frontend.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | no
|
|
Arguments :
|
|
<address> is optional and can be a host name, an IPv4 address, an IPv6
|
|
address, or '*'. It designates the address the frontend will
|
|
listen on. If unset, all IPv4 addresses of the system will be
|
|
listened on. The same will apply for '*' or the system's
|
|
special address "0.0.0.0". The IPv6 equivalent is '::'.
|
|
|
|
<port_range> is either a unique TCP port, or a port range for which the
|
|
proxy will accept connections for the IP address specified
|
|
above. The port is mandatory for TCP listeners. Note that in
|
|
the case of an IPv6 address, the port is always the number
|
|
after the last colon (':'). A range can either be :
|
|
- a numerical port (ex: '80')
|
|
- a dash-delimited ports range explicitly stating the lower
|
|
and upper bounds (ex: '2000-2100') which are included in
|
|
the range.
|
|
|
|
Particular care must be taken against port ranges, because
|
|
every <address:port> couple consumes one socket (= a file
|
|
descriptor), so it's easy to consume lots of descriptors
|
|
with a simple range, and to run out of sockets. Also, each
|
|
<address:port> couple must be used only once among all
|
|
instances running on a same system. Please note that binding
|
|
to ports lower than 1024 generally require particular
|
|
privileges to start the program, which are independant of
|
|
the 'uid' parameter.
|
|
|
|
<path> is a UNIX socket path beginning with a slash ('/'). This is
|
|
alternative to the TCP listening port. Haproxy will then
|
|
receive UNIX connections on the socket located at this place.
|
|
The path must begin with a slash and by default is absolute.
|
|
It can be relative to the prefix defined by "unix-bind" in
|
|
the global section. Note that the total length of the prefix
|
|
followed by the socket path cannot exceed some system limits
|
|
for UNIX sockets, which commonly are set to 107 characters.
|
|
|
|
<interface> is an optional physical interface name. This is currently
|
|
only supported on Linux. The interface must be a physical
|
|
interface, not an aliased interface. When specified, all
|
|
addresses on the same line will only be accepted if the
|
|
incoming packet physically come through the designated
|
|
interface. It is also possible to bind multiple frontends to
|
|
the same address if they are bound to different interfaces.
|
|
Note that binding to a physical interface requires root
|
|
privileges. This parameter is only compatible with TCP
|
|
sockets.
|
|
|
|
<maxseg> is an optional TCP Maximum Segment Size (MSS) value to be
|
|
advertised on incoming connections. This can be used to force
|
|
a lower MSS for certain specific ports, for instance for
|
|
connections passing through a VPN. Note that this relies on a
|
|
kernel feature which is theorically supported under Linux but
|
|
was buggy in all versions prior to 2.6.28. It may or may not
|
|
work on other operating systems. It may also not change the
|
|
advertised value but change the effective size of outgoing
|
|
segments. The commonly advertised value on Ethernet networks
|
|
is 1460 = 1500(MTU) - 40(IP+TCP). If this value is positive,
|
|
it will be used as the advertised MSS. If it is negative, it
|
|
will indicate by how much to reduce the incoming connection's
|
|
advertised MSS for outgoing segments. This parameter is only
|
|
compatible with TCP sockets.
|
|
|
|
<id> is a persistent value for socket ID. Must be positive and
|
|
unique in the proxy. An unused value will automatically be
|
|
assigned if unset. Can only be used when defining only a
|
|
single socket.
|
|
|
|
<name> is an optional name provided for stats
|
|
|
|
<mode> is the octal mode used to define access permissions on the
|
|
UNIX socket. It can also be set by default in the global
|
|
section's "unix-bind" statement. Note that some platforms
|
|
simply ignore this.
|
|
|
|
<user> is the name of user that will be marked owner of the UNIX
|
|
socket. It can also be set by default in the global
|
|
section's "unix-bind" statement. Note that some platforms
|
|
simply ignore this.
|
|
|
|
<group> is the name of a group that will be used to create the UNIX
|
|
socket. It can also be set by default in the global section's
|
|
"unix-bind" statement. Note that some platforms simply ignore
|
|
this.
|
|
|
|
<uid> is the uid of user that will be marked owner of the UNIX
|
|
socket. It can also be set by default in the global section's
|
|
"unix-bind" statement. Note that some platforms simply ignore
|
|
this.
|
|
|
|
<gid> is the gid of a group that will be used to create the UNIX
|
|
socket. It can also be set by default in the global section's
|
|
"unix-bind" statement. Note that some platforms simply ignore
|
|
this.
|
|
|
|
transparent is an optional keyword which is supported only on certain
|
|
Linux kernels. It indicates that the addresses will be bound
|
|
even if they do not belong to the local machine. Any packet
|
|
targeting any of these addresses will be caught just as if
|
|
the address was locally configured. This normally requires
|
|
that IP forwarding is enabled. Caution! do not use this with
|
|
the default address '*', as it would redirect any traffic for
|
|
the specified port. This keyword is available only when
|
|
HAProxy is built with USE_LINUX_TPROXY=1. This parameter is
|
|
only compatible with TCP sockets.
|
|
|
|
defer-accept is an optional keyword which is supported only on certain
|
|
Linux kernels. It states that a connection will only be
|
|
accepted once some data arrive on it, or at worst after the
|
|
first retransmit. This should be used only on protocols for
|
|
which the client talks first (eg: HTTP). It can slightly
|
|
improve performance by ensuring that most of the request is
|
|
already available when the connection is accepted. On the
|
|
other hand, it will not be able to detect connections which
|
|
don't talk. It is important to note that this option is
|
|
broken in all kernels up to 2.6.31, as the connection is
|
|
never accepted until the client talks. This can cause issues
|
|
with front firewalls which would see an established
|
|
connection while the proxy will only see it in SYN_RECV.
|
|
|
|
accept-proxy is an optional keyword which enforces use of the PROXY
|
|
protocol over any connection accepted by this listener. The
|
|
PROXY protocol dictates the layer 3/4 addresses of the
|
|
incoming connection to be used everywhere an address is used,
|
|
with the only exception of "tcp-request connection" rules
|
|
which will only see the real connection address. Logs will
|
|
reflect the addresses indicated in the protocol, unless it is
|
|
violated, in which case the real address will still be used.
|
|
This keyword combined with support from external components
|
|
can be used as an efficient and reliable alternative to the
|
|
X-Forwarded-For mechanism which is not always reliable and
|
|
not even always usable.
|
|
|
|
It is possible to specify a list of address:port combinations delimited by
|
|
commas. The frontend will then listen on all of these addresses. There is no
|
|
fixed limit to the number of addresses and ports which can be listened on in
|
|
a frontend, as well as there is no limit to the number of "bind" statements
|
|
in a frontend.
|
|
|
|
Example :
|
|
listen http_proxy
|
|
bind :80,:443
|
|
bind 10.0.0.1:10080,10.0.0.1:10443
|
|
bind /var/run/ssl-frontend.sock user root mode 600 accept-proxy
|
|
|
|
See also : "source", "option forwardfor", "unix-bind" and the PROXY protocol
|
|
documentation.
|
|
|
|
|
|
bind-process [ all | odd | even | <number 1-32> ] ...
|
|
Limit visibility of an instance to a certain set of processes numbers.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
all All process will see this instance. This is the default. It
|
|
may be used to override a default value.
|
|
|
|
odd This instance will be enabled on processes 1,3,5,...31. This
|
|
option may be combined with other numbers.
|
|
|
|
even This instance will be enabled on processes 2,4,6,...32. This
|
|
option may be combined with other numbers. Do not use it
|
|
with less than 2 processes otherwise some instances might be
|
|
missing from all processes.
|
|
|
|
number The instance will be enabled on this process number, between
|
|
1 and 32. You must be careful not to reference a process
|
|
number greater than the configured global.nbproc, otherwise
|
|
some instances might be missing from all processes.
|
|
|
|
This keyword limits binding of certain instances to certain processes. This
|
|
is useful in order not to have too many processes listening to the same
|
|
ports. For instance, on a dual-core machine, it might make sense to set
|
|
'nbproc 2' in the global section, then distributes the listeners among 'odd'
|
|
and 'even' instances.
|
|
|
|
At the moment, it is not possible to reference more than 32 processes using
|
|
this keyword, but this should be more than enough for most setups. Please
|
|
note that 'all' really means all processes and is not limited to the first
|
|
32.
|
|
|
|
If some backends are referenced by frontends bound to other processes, the
|
|
backend automatically inherits the frontend's processes.
|
|
|
|
Example :
|
|
listen app_ip1
|
|
bind 10.0.0.1:80
|
|
bind-process odd
|
|
|
|
listen app_ip2
|
|
bind 10.0.0.2:80
|
|
bind-process even
|
|
|
|
listen management
|
|
bind 10.0.0.3:80
|
|
bind-process 1 2 3 4
|
|
|
|
See also : "nbproc" in global section.
|
|
|
|
|
|
block { if | unless } <condition>
|
|
Block a layer 7 request if/unless a condition is matched
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
|
|
The HTTP request will be blocked very early in the layer 7 processing
|
|
if/unless <condition> is matched. A 403 error will be returned if the request
|
|
is blocked. The condition has to reference ACLs (see section 7). This is
|
|
typically used to deny access to certain sensible resources if some
|
|
conditions are met or not met. There is no fixed limit to the number of
|
|
"block" statements per instance.
|
|
|
|
Example:
|
|
acl invalid_src src 0.0.0.0/7 224.0.0.0/3
|
|
acl invalid_src src_port 0:1023
|
|
acl local_dst hdr(host) -i localhost
|
|
block if invalid_src || local_dst
|
|
|
|
See section 7 about ACL usage.
|
|
|
|
|
|
capture cookie <name> len <length>
|
|
Capture and log a cookie in the request and in the response.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | no
|
|
Arguments :
|
|
<name> is the beginning of the name of the cookie to capture. In order
|
|
to match the exact name, simply suffix the name with an equal
|
|
sign ('='). The full name will appear in the logs, which is
|
|
useful with application servers which adjust both the cookie name
|
|
and value (eg: ASPSESSIONXXXXX).
|
|
|
|
<length> is the maximum number of characters to report in the logs, which
|
|
include the cookie name, the equal sign and the value, all in the
|
|
standard "name=value" form. The string will be truncated on the
|
|
right if it exceeds <length>.
|
|
|
|
Only the first cookie is captured. Both the "cookie" request headers and the
|
|
"set-cookie" response headers are monitored. This is particularly useful to
|
|
check for application bugs causing session crossing or stealing between
|
|
users, because generally the user's cookies can only change on a login page.
|
|
|
|
When the cookie was not presented by the client, the associated log column
|
|
will report "-". When a request does not cause a cookie to be assigned by the
|
|
server, a "-" is reported in the response column.
|
|
|
|
The capture is performed in the frontend only because it is necessary that
|
|
the log format does not change for a given frontend depending on the
|
|
backends. This may change in the future. Note that there can be only one
|
|
"capture cookie" statement in a frontend. The maximum capture length is
|
|
configured in the sources by default to 64 characters. It is not possible to
|
|
specify a capture in a "defaults" section.
|
|
|
|
Example:
|
|
capture cookie ASPSESSION len 32
|
|
|
|
See also : "capture request header", "capture response header" as well as
|
|
section 8 about logging.
|
|
|
|
|
|
capture request header <name> len <length>
|
|
Capture and log the first occurrence of the specified request header.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | no
|
|
Arguments :
|
|
<name> is the name of the header to capture. The header names are not
|
|
case-sensitive, but it is a common practice to write them as they
|
|
appear in the requests, with the first letter of each word in
|
|
upper case. The header name will not appear in the logs, only the
|
|
value is reported, but the position in the logs is respected.
|
|
|
|
<length> is the maximum number of characters to extract from the value and
|
|
report in the logs. The string will be truncated on the right if
|
|
it exceeds <length>.
|
|
|
|
Only the first value of the last occurrence of the header is captured. The
|
|
value will be added to the logs between braces ('{}'). If multiple headers
|
|
are captured, they will be delimited by a vertical bar ('|') and will appear
|
|
in the same order they were declared in the configuration. Non-existent
|
|
headers will be logged just as an empty string. Common uses for request
|
|
header captures include the "Host" field in virtual hosting environments, the
|
|
"Content-length" when uploads are supported, "User-agent" to quickly
|
|
differentiate between real users and robots, and "X-Forwarded-For" in proxied
|
|
environments to find where the request came from.
|
|
|
|
Note that when capturing headers such as "User-agent", some spaces may be
|
|
logged, making the log analysis more difficult. Thus be careful about what
|
|
you log if you know your log parser is not smart enough to rely on the
|
|
braces.
|
|
|
|
There is no limit to the number of captured request headers, but each capture
|
|
is limited to 64 characters. In order to keep log format consistent for a
|
|
same frontend, header captures can only be declared in a frontend. It is not
|
|
possible to specify a capture in a "defaults" section.
|
|
|
|
Example:
|
|
capture request header Host len 15
|
|
capture request header X-Forwarded-For len 15
|
|
capture request header Referrer len 15
|
|
|
|
See also : "capture cookie", "capture response header" as well as section 8
|
|
about logging.
|
|
|
|
|
|
capture response header <name> len <length>
|
|
Capture and log the first occurrence of the specified response header.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | no
|
|
Arguments :
|
|
<name> is the name of the header to capture. The header names are not
|
|
case-sensitive, but it is a common practice to write them as they
|
|
appear in the response, with the first letter of each word in
|
|
upper case. The header name will not appear in the logs, only the
|
|
value is reported, but the position in the logs is respected.
|
|
|
|
<length> is the maximum number of characters to extract from the value and
|
|
report in the logs. The string will be truncated on the right if
|
|
it exceeds <length>.
|
|
|
|
Only the first value of the last occurrence of the header is captured. The
|
|
result will be added to the logs between braces ('{}') after the captured
|
|
request headers. If multiple headers are captured, they will be delimited by
|
|
a vertical bar ('|') and will appear in the same order they were declared in
|
|
the configuration. Non-existent headers will be logged just as an empty
|
|
string. Common uses for response header captures include the "Content-length"
|
|
header which indicates how many bytes are expected to be returned, the
|
|
"Location" header to track redirections.
|
|
|
|
There is no limit to the number of captured response headers, but each
|
|
capture is limited to 64 characters. In order to keep log format consistent
|
|
for a same frontend, header captures can only be declared in a frontend. It
|
|
is not possible to specify a capture in a "defaults" section.
|
|
|
|
Example:
|
|
capture response header Content-length len 9
|
|
capture response header Location len 15
|
|
|
|
See also : "capture cookie", "capture request header" as well as section 8
|
|
about logging.
|
|
|
|
|
|
clitimeout <timeout> (deprecated)
|
|
Set the maximum inactivity time on the client side.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments :
|
|
<timeout> is the timeout value is specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
The inactivity timeout applies when the client is expected to acknowledge or
|
|
send data. In HTTP mode, this timeout is particularly important to consider
|
|
during the first phase, when the client sends the request, and during the
|
|
response while it is reading data sent by the server. The value is specified
|
|
in milliseconds by default, but can be in any other unit if the number is
|
|
suffixed by the unit, as specified at the top of this document. In TCP mode
|
|
(and to a lesser extent, in HTTP mode), it is highly recommended that the
|
|
client timeout remains equal to the server timeout in order to avoid complex
|
|
situations to debug. It is a good practice to cover one or several TCP packet
|
|
losses by specifying timeouts that are slightly above multiples of 3 seconds
|
|
(eg: 4 or 5 seconds).
|
|
|
|
This parameter is specific to frontends, but can be specified once for all in
|
|
"defaults" sections. This is in fact one of the easiest solutions not to
|
|
forget about it. An unspecified timeout results in an infinite timeout, which
|
|
is not recommended. Such a usage is accepted and works but reports a warning
|
|
during startup because it may results in accumulation of expired sessions in
|
|
the system if the system's timeouts are not configured either.
|
|
|
|
This parameter is provided for compatibility but is currently deprecated.
|
|
Please use "timeout client" instead.
|
|
|
|
See also : "timeout client", "timeout http-request", "timeout server", and
|
|
"srvtimeout".
|
|
|
|
|
|
contimeout <timeout> (deprecated)
|
|
Set the maximum time to wait for a connection attempt to a server to succeed.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<timeout> is the timeout value is specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
If the server is located on the same LAN as haproxy, the connection should be
|
|
immediate (less than a few milliseconds). Anyway, it is a good practice to
|
|
cover one or several TCP packet losses by specifying timeouts that are
|
|
slightly above multiples of 3 seconds (eg: 4 or 5 seconds). By default, the
|
|
connect timeout also presets the queue timeout to the same value if this one
|
|
has not been specified. Historically, the contimeout was also used to set the
|
|
tarpit timeout in a listen section, which is not possible in a pure frontend.
|
|
|
|
This parameter is specific to backends, but can be specified once for all in
|
|
"defaults" sections. This is in fact one of the easiest solutions not to
|
|
forget about it. An unspecified timeout results in an infinite timeout, which
|
|
is not recommended. Such a usage is accepted and works but reports a warning
|
|
during startup because it may results in accumulation of failed sessions in
|
|
the system if the system's timeouts are not configured either.
|
|
|
|
This parameter is provided for backwards compatibility but is currently
|
|
deprecated. Please use "timeout connect", "timeout queue" or "timeout tarpit"
|
|
instead.
|
|
|
|
See also : "timeout connect", "timeout queue", "timeout tarpit",
|
|
"timeout server", "contimeout".
|
|
|
|
|
|
cookie <name> [ rewrite | insert | prefix ] [ indirect ] [ nocache ]
|
|
[ postonly ] [ preserve ] [ domain <domain> ]*
|
|
[ maxidle <idle> ] [ maxlife <life> ]
|
|
Enable cookie-based persistence in a backend.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<name> is the name of the cookie which will be monitored, modified or
|
|
inserted in order to bring persistence. This cookie is sent to
|
|
the client via a "Set-Cookie" header in the response, and is
|
|
brought back by the client in a "Cookie" header in all requests.
|
|
Special care should be taken to choose a name which does not
|
|
conflict with any likely application cookie. Also, if the same
|
|
backends are subject to be used by the same clients (eg:
|
|
HTTP/HTTPS), care should be taken to use different cookie names
|
|
between all backends if persistence between them is not desired.
|
|
|
|
rewrite This keyword indicates that the cookie will be provided by the
|
|
server and that haproxy will have to modify its value to set the
|
|
server's identifier in it. This mode is handy when the management
|
|
of complex combinations of "Set-cookie" and "Cache-control"
|
|
headers is left to the application. The application can then
|
|
decide whether or not it is appropriate to emit a persistence
|
|
cookie. Since all responses should be monitored, this mode only
|
|
works in HTTP close mode. Unless the application behaviour is
|
|
very complex and/or broken, it is advised not to start with this
|
|
mode for new deployments. This keyword is incompatible with
|
|
"insert" and "prefix".
|
|
|
|
insert This keyword indicates that the persistence cookie will have to
|
|
be inserted by haproxy in server responses if the client did not
|
|
|
|
already have a cookie that would have permitted it to access this
|
|
server. When used without the "preserve" option, if the server
|
|
emits a cookie with the same name, it will be remove before
|
|
processing. For this reason, this mode can be used to upgrade
|
|
existing configurations running in the "rewrite" mode. The cookie
|
|
will only be a session cookie and will not be stored on the
|
|
client's disk. By default, unless the "indirect" option is added,
|
|
the server will see the cookies emitted by the client. Due to
|
|
caching effects, it is generally wise to add the "nocache" or
|
|
"postonly" keywords (see below). The "insert" keyword is not
|
|
compatible with "rewrite" and "prefix".
|
|
|
|
prefix This keyword indicates that instead of relying on a dedicated
|
|
cookie for the persistence, an existing one will be completed.
|
|
This may be needed in some specific environments where the client
|
|
does not support more than one single cookie and the application
|
|
already needs it. In this case, whenever the server sets a cookie
|
|
named <name>, it will be prefixed with the server's identifier
|
|
and a delimiter. The prefix will be removed from all client
|
|
requests so that the server still finds the cookie it emitted.
|
|
Since all requests and responses are subject to being modified,
|
|
this mode requires the HTTP close mode. The "prefix" keyword is
|
|
not compatible with "rewrite" and "insert".
|
|
|
|
indirect When this option is specified, no cookie will be emitted to a
|
|
client which already has a valid one for the server which has
|
|
processed the request. If the server sets such a cookie itself,
|
|
it will be removed, unless the "preserve" option is also set. In
|
|
"insert" mode, this will additionally remove cookies from the
|
|
requests transmitted to the server, making the persistence
|
|
mechanism totally transparent from an application point of view.
|
|
|
|
nocache This option is recommended in conjunction with the insert mode
|
|
when there is a cache between the client and HAProxy, as it
|
|
ensures that a cacheable response will be tagged non-cacheable if
|
|
a cookie needs to be inserted. This is important because if all
|
|
persistence cookies are added on a cacheable home page for
|
|
instance, then all customers will then fetch the page from an
|
|
outer cache and will all share the same persistence cookie,
|
|
leading to one server receiving much more traffic than others.
|
|
See also the "insert" and "postonly" options.
|
|
|
|
postonly This option ensures that cookie insertion will only be performed
|
|
on responses to POST requests. It is an alternative to the
|
|
"nocache" option, because POST responses are not cacheable, so
|
|
this ensures that the persistence cookie will never get cached.
|
|
Since most sites do not need any sort of persistence before the
|
|
first POST which generally is a login request, this is a very
|
|
efficient method to optimize caching without risking to find a
|
|
persistence cookie in the cache.
|
|
See also the "insert" and "nocache" options.
|
|
|
|
preserve This option may only be used with "insert" and/or "indirect". It
|
|
allows the server to emit the persistence cookie itself. In this
|
|
case, if a cookie is found in the response, haproxy will leave it
|
|
untouched. This is useful in order to end persistence after a
|
|
logout request for instance. For this, the server just has to
|
|
emit a cookie with an invalid value (eg: empty) or with a date in
|
|
the past. By combining this mechanism with the "disable-on-404"
|
|
check option, it is possible to perform a completely graceful
|
|
shutdown because users will definitely leave the server after
|
|
they logout.
|
|
|
|
domain This option allows to specify the domain at which a cookie is
|
|
inserted. It requires exactly one parameter: a valid domain
|
|
name. If the domain begins with a dot, the browser is allowed to
|
|
use it for any host ending with that name. It is also possible to
|
|
specify several domain names by invoking this option multiple
|
|
times. Some browsers might have small limits on the number of
|
|
domains, so be careful when doing that. For the record, sending
|
|
10 domains to MSIE 6 or Firefox 2 works as expected.
|
|
|
|
maxidle This option allows inserted cookies to be ignored after some idle
|
|
time. It only works with insert-mode cookies. When a cookie is
|
|
sent to the client, the date this cookie was emitted is sent too.
|
|
Upon further presentations of this cookie, if the date is older
|
|
than the delay indicated by the parameter (in seconds), it will
|
|
be ignored. Otherwise, it will be refreshed if needed when the
|
|
response is sent to the client. This is particularly useful to
|
|
prevent users who never close their browsers from remaining for
|
|
too long on the same server (eg: after a farm size change). When
|
|
this option is set and a cookie has no date, it is always
|
|
accepted, but gets refreshed in the response. This maintains the
|
|
ability for admins to access their sites. Cookies that have a
|
|
date in the future further than 24 hours are ignored. Doing so
|
|
lets admins fix timezone issues without risking kicking users off
|
|
the site.
|
|
|
|
maxlife This option allows inserted cookies to be ignored after some life
|
|
time, whether they're in use or not. It only works with insert
|
|
mode cookies. When a cookie is first sent to the client, the date
|
|
this cookie was emitted is sent too. Upon further presentations
|
|
of this cookie, if the date is older than the delay indicated by
|
|
the parameter (in seconds), it will be ignored. If the cookie in
|
|
the request has no date, it is accepted and a date will be set.
|
|
Cookies that have a date in the future further than 24 hours are
|
|
ignored. Doing so lets admins fix timezone issues without risking
|
|
kicking users off the site. Contrary to maxidle, this value is
|
|
not refreshed, only the first visit date counts. Both maxidle and
|
|
maxlife may be used at the time. This is particularly useful to
|
|
prevent users who never close their browsers from remaining for
|
|
too long on the same server (eg: after a farm size change). This
|
|
is stronger than the maxidle method in that it forces a
|
|
redispatch after some absolute delay.
|
|
|
|
There can be only one persistence cookie per HTTP backend, and it can be
|
|
declared in a defaults section. The value of the cookie will be the value
|
|
indicated after the "cookie" keyword in a "server" statement. If no cookie
|
|
is declared for a given server, the cookie is not set.
|
|
|
|
Examples :
|
|
cookie JSESSIONID prefix
|
|
cookie SRV insert indirect nocache
|
|
cookie SRV insert postonly indirect
|
|
cookie SRV insert indirect nocache maxidle 30m maxlife 8h
|
|
|
|
See also : "appsession", "balance source", "capture cookie", "server"
|
|
and "ignore-persist".
|
|
|
|
|
|
default-server [param*]
|
|
Change default options for a server in a backend
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments:
|
|
<param*> is a list of parameters for this server. The "default-server"
|
|
keyword accepts an important number of options and has a complete
|
|
section dedicated to it. Please refer to section 5 for more
|
|
details.
|
|
|
|
Example :
|
|
default-server inter 1000 weight 13
|
|
|
|
See also: "server" and section 5 about server options
|
|
|
|
|
|
default_backend <backend>
|
|
Specify the backend to use when no "use_backend" rule has been matched.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments :
|
|
<backend> is the name of the backend to use.
|
|
|
|
When doing content-switching between frontend and backends using the
|
|
"use_backend" keyword, it is often useful to indicate which backend will be
|
|
used when no rule has matched. It generally is the dynamic backend which
|
|
will catch all undetermined requests.
|
|
|
|
Example :
|
|
|
|
use_backend dynamic if url_dyn
|
|
use_backend static if url_css url_img extension_img
|
|
default_backend dynamic
|
|
|
|
See also : "use_backend", "reqsetbe", "reqisetbe"
|
|
|
|
|
|
disabled
|
|
Disable a proxy, frontend or backend.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
The "disabled" keyword is used to disable an instance, mainly in order to
|
|
liberate a listening port or to temporarily disable a service. The instance
|
|
will still be created and its configuration will be checked, but it will be
|
|
created in the "stopped" state and will appear as such in the statistics. It
|
|
will not receive any traffic nor will it send any health-checks or logs. It
|
|
is possible to disable many instances at once by adding the "disabled"
|
|
keyword in a "defaults" section.
|
|
|
|
See also : "enabled"
|
|
|
|
|
|
dispatch <address>:<port>
|
|
Set a default server address
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | no | yes | yes
|
|
Arguments : none
|
|
|
|
<address> is the IPv4 address of the default server. Alternatively, a
|
|
resolvable hostname is supported, but this name will be resolved
|
|
during start-up.
|
|
|
|
<ports> is a mandatory port specification. All connections will be sent
|
|
to this port, and it is not permitted to use port offsets as is
|
|
possible with normal servers.
|
|
|
|
The "dispatch" keyword designates a default server for use when no other
|
|
server can take the connection. In the past it was used to forward non
|
|
persistent connections to an auxiliary load balancer. Due to its simple
|
|
syntax, it has also been used for simple TCP relays. It is recommended not to
|
|
use it for more clarity, and to use the "server" directive instead.
|
|
|
|
See also : "server"
|
|
|
|
|
|
enabled
|
|
Enable a proxy, frontend or backend.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
The "enabled" keyword is used to explicitly enable an instance, when the
|
|
defaults has been set to "disabled". This is very rarely used.
|
|
|
|
See also : "disabled"
|
|
|
|
|
|
errorfile <code> <file>
|
|
Return a file contents instead of errors generated by HAProxy
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
<code> is the HTTP status code. Currently, HAProxy is capable of
|
|
generating codes 200, 400, 403, 408, 500, 502, 503, and 504.
|
|
|
|
<file> designates a file containing the full HTTP response. It is
|
|
recommended to follow the common practice of appending ".http" to
|
|
the filename so that people do not confuse the response with HTML
|
|
error pages, and to use absolute paths, since files are read
|
|
before any chroot is performed.
|
|
|
|
It is important to understand that this keyword is not meant to rewrite
|
|
errors returned by the server, but errors detected and returned by HAProxy.
|
|
This is why the list of supported errors is limited to a small set.
|
|
|
|
Code 200 is emitted in response to requests matching a "monitor-uri" rule.
|
|
|
|
The files are returned verbatim on the TCP socket. This allows any trick such
|
|
as redirections to another URL or site, as well as tricks to clean cookies,
|
|
force enable or disable caching, etc... The package provides default error
|
|
files returning the same contents as default errors.
|
|
|
|
The files should not exceed the configured buffer size (BUFSIZE), which
|
|
generally is 8 or 16 kB, otherwise they will be truncated. It is also wise
|
|
not to put any reference to local contents (eg: images) in order to avoid
|
|
loops between the client and HAProxy when all servers are down, causing an
|
|
error to be returned instead of an image. For better HTTP compliance, it is
|
|
recommended that all header lines end with CR-LF and not LF alone.
|
|
|
|
The files are read at the same time as the configuration and kept in memory.
|
|
For this reason, the errors continue to be returned even when the process is
|
|
chrooted, and no file change is considered while the process is running. A
|
|
simple method for developing those files consists in associating them to the
|
|
403 status code and interrogating a blocked URL.
|
|
|
|
See also : "errorloc", "errorloc302", "errorloc303"
|
|
|
|
Example :
|
|
errorfile 400 /etc/haproxy/errorfiles/400badreq.http
|
|
errorfile 403 /etc/haproxy/errorfiles/403forbid.http
|
|
errorfile 503 /etc/haproxy/errorfiles/503sorry.http
|
|
|
|
|
|
errorloc <code> <url>
|
|
errorloc302 <code> <url>
|
|
Return an HTTP redirection to a URL instead of errors generated by HAProxy
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
<code> is the HTTP status code. Currently, HAProxy is capable of
|
|
generating codes 200, 400, 403, 408, 500, 502, 503, and 504.
|
|
|
|
<url> it is the exact contents of the "Location" header. It may contain
|
|
either a relative URI to an error page hosted on the same site,
|
|
or an absolute URI designating an error page on another site.
|
|
Special care should be given to relative URIs to avoid redirect
|
|
loops if the URI itself may generate the same error (eg: 500).
|
|
|
|
It is important to understand that this keyword is not meant to rewrite
|
|
errors returned by the server, but errors detected and returned by HAProxy.
|
|
This is why the list of supported errors is limited to a small set.
|
|
|
|
Code 200 is emitted in response to requests matching a "monitor-uri" rule.
|
|
|
|
Note that both keyword return the HTTP 302 status code, which tells the
|
|
client to fetch the designated URL using the same HTTP method. This can be
|
|
quite problematic in case of non-GET methods such as POST, because the URL
|
|
sent to the client might not be allowed for something other than GET. To
|
|
workaround this problem, please use "errorloc303" which send the HTTP 303
|
|
status code, indicating to the client that the URL must be fetched with a GET
|
|
request.
|
|
|
|
See also : "errorfile", "errorloc303"
|
|
|
|
|
|
errorloc303 <code> <url>
|
|
Return an HTTP redirection to a URL instead of errors generated by HAProxy
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
<code> is the HTTP status code. Currently, HAProxy is capable of
|
|
generating codes 400, 403, 408, 500, 502, 503, and 504.
|
|
|
|
<url> it is the exact contents of the "Location" header. It may contain
|
|
either a relative URI to an error page hosted on the same site,
|
|
or an absolute URI designating an error page on another site.
|
|
Special care should be given to relative URIs to avoid redirect
|
|
loops if the URI itself may generate the same error (eg: 500).
|
|
|
|
It is important to understand that this keyword is not meant to rewrite
|
|
errors returned by the server, but errors detected and returned by HAProxy.
|
|
This is why the list of supported errors is limited to a small set.
|
|
|
|
Code 200 is emitted in response to requests matching a "monitor-uri" rule.
|
|
|
|
Note that both keyword return the HTTP 303 status code, which tells the
|
|
client to fetch the designated URL using the same HTTP GET method. This
|
|
solves the usual problems associated with "errorloc" and the 302 code. It is
|
|
possible that some very old browsers designed before HTTP/1.1 do not support
|
|
it, but no such problem has been reported till now.
|
|
|
|
See also : "errorfile", "errorloc", "errorloc302"
|
|
|
|
|
|
force-persist { if | unless } <condition>
|
|
Declare a condition to force persistence on down servers
|
|
May be used in sections: defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
|
|
By default, requests are not dispatched to down servers. It is possible to
|
|
force this using "option persist", but it is unconditional and redispatches
|
|
to a valid server if "option redispatch" is set. That leaves with very little
|
|
possibilities to force some requests to reach a server which is artificially
|
|
marked down for maintenance operations.
|
|
|
|
The "force-persist" statement allows one to declare various ACL-based
|
|
conditions which, when met, will cause a request to ignore the down status of
|
|
a server and still try to connect to it. That makes it possible to start a
|
|
server, still replying an error to the health checks, and run a specially
|
|
configured browser to test the service. Among the handy methods, one could
|
|
use a specific source IP address, or a specific cookie. The cookie also has
|
|
the advantage that it can easily be added/removed on the browser from a test
|
|
page. Once the service is validated, it is then possible to open the service
|
|
to the world by returning a valid response to health checks.
|
|
|
|
The forced persistence is enabled when an "if" condition is met, or unless an
|
|
"unless" condition is met. The final redispatch is always disabled when this
|
|
is used.
|
|
|
|
See also : "option redispatch", "ignore-persist", "persist",
|
|
and section 7 about ACL usage.
|
|
|
|
|
|
fullconn <conns>
|
|
Specify at what backend load the servers will reach their maxconn
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<conns> is the number of connections on the backend which will make the
|
|
servers use the maximal number of connections.
|
|
|
|
When a server has a "maxconn" parameter specified, it means that its number
|
|
of concurrent connections will never go higher. Additionally, if it has a
|
|
"minconn" parameter, it indicates a dynamic limit following the backend's
|
|
load. The server will then always accept at least <minconn> connections,
|
|
never more than <maxconn>, and the limit will be on the ramp between both
|
|
values when the backend has less than <conns> concurrent connections. This
|
|
makes it possible to limit the load on the servers during normal loads, but
|
|
push it further for important loads without overloading the servers during
|
|
exceptional loads.
|
|
|
|
Example :
|
|
# The servers will accept between 100 and 1000 concurrent connections each
|
|
# and the maximum of 1000 will be reached when the backend reaches 10000
|
|
# connections.
|
|
backend dynamic
|
|
fullconn 10000
|
|
server srv1 dyn1:80 minconn 100 maxconn 1000
|
|
server srv2 dyn2:80 minconn 100 maxconn 1000
|
|
|
|
See also : "maxconn", "server"
|
|
|
|
|
|
grace <time>
|
|
Maintain a proxy operational for some time after a soft stop
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
<time> is the time (by default in milliseconds) for which the instance
|
|
will remain operational with the frontend sockets still listening
|
|
when a soft-stop is received via the SIGUSR1 signal.
|
|
|
|
This may be used to ensure that the services disappear in a certain order.
|
|
This was designed so that frontends which are dedicated to monitoring by an
|
|
external equipment fail immediately while other ones remain up for the time
|
|
needed by the equipment to detect the failure.
|
|
|
|
Note that currently, there is very little benefit in using this parameter,
|
|
and it may in fact complicate the soft-reconfiguration process more than
|
|
simplify it.
|
|
|
|
|
|
hash-type <method>
|
|
Specify a method to use for mapping hashes to servers
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
map-based the hash table is a static array containing all alive servers.
|
|
The hashes will be very smooth, will consider weights, but will
|
|
be static in that weight changes while a server is up will be
|
|
ignored. This means that there will be no slow start. Also,
|
|
since a server is selected by its position in the array, most
|
|
mappings are changed when the server count changes. This means
|
|
that when a server goes up or down, or when a server is added
|
|
to a farm, most connections will be redistributed to different
|
|
servers. This can be inconvenient with caches for instance.
|
|
|
|
avalanche this mechanism uses the default map-based hashing described
|
|
above but applies a full avalanche hash before performing the
|
|
mapping. The result is a slightly less smooth hash for most
|
|
situations, but the hash becomes better than pure map-based
|
|
hashes when the number of servers is a multiple of the size of
|
|
the input set. When using URI hash with a number of servers
|
|
multiple of 64, it's desirable to change the hash type to
|
|
this value.
|
|
|
|
consistent the hash table is a tree filled with many occurrences of each
|
|
server. The hash key is looked up in the tree and the closest
|
|
server is chosen. This hash is dynamic, it supports changing
|
|
weights while the servers are up, so it is compatible with the
|
|
slow start feature. It has the advantage that when a server
|
|
goes up or down, only its associations are moved. When a server
|
|
is added to the farm, only a few part of the mappings are
|
|
redistributed, making it an ideal algorithm for caches.
|
|
However, due to its principle, the algorithm will never be very
|
|
smooth and it may sometimes be necessary to adjust a server's
|
|
weight or its ID to get a more balanced distribution. In order
|
|
to get the same distribution on multiple load balancers, it is
|
|
important that all servers have the same IDs.
|
|
|
|
The default hash type is "map-based" and is recommended for most usages.
|
|
|
|
See also : "balance", "server"
|
|
|
|
|
|
http-check disable-on-404
|
|
Enable a maintenance mode upon HTTP/404 response to health-checks
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
When this option is set, a server which returns an HTTP code 404 will be
|
|
excluded from further load-balancing, but will still receive persistent
|
|
connections. This provides a very convenient method for Web administrators
|
|
to perform a graceful shutdown of their servers. It is also important to note
|
|
that a server which is detected as failed while it was in this mode will not
|
|
generate an alert, just a notice. If the server responds 2xx or 3xx again, it
|
|
will immediately be reinserted into the farm. The status on the stats page
|
|
reports "NOLB" for a server in this mode. It is important to note that this
|
|
option only works in conjunction with the "httpchk" option. If this option
|
|
is used with "http-check expect", then it has precedence over it so that 404
|
|
responses will still be considered as soft-stop.
|
|
|
|
See also : "option httpchk", "http-check expect"
|
|
|
|
|
|
http-check expect [!] <match> <pattern>
|
|
Make HTTP health checks consider reponse contents or specific status codes
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | no | yes | yes
|
|
Arguments :
|
|
<match> is a keyword indicating how to look for a specific pattern in the
|
|
response. The keyword may be one of "status", "rstatus",
|
|
"string", or "rstring". The keyword may be preceeded by an
|
|
exclamation mark ("!") to negate the match. Spaces are allowed
|
|
between the exclamation mark and the keyword. See below for more
|
|
details on the supported keywords.
|
|
|
|
<pattern> is the pattern to look for. It may be a string or a regular
|
|
expression. If the pattern contains spaces, they must be escaped
|
|
with the usual backslash ('\').
|
|
|
|
By default, "option httpchk" considers that response statuses 2xx and 3xx
|
|
are valid, and that others are invalid. When "http-check expect" is used,
|
|
it defines what is considered valid or invalid. Only one "http-check"
|
|
statement is supported in a backend. If a server fails to respond or times
|
|
out, the check obviously fails. The available matches are :
|
|
|
|
status <string> : test the exact string match for the HTTP status code.
|
|
A health check respose will be considered valid if the
|
|
response's status code is exactly this string. If the
|
|
"status" keyword is prefixed with "!", then the response
|
|
will be considered invalid if the status code matches.
|
|
|
|
rstatus <regex> : test a regular expression for the HTTP status code.
|
|
A health check respose will be considered valid if the
|
|
response's status code matches the expression. If the
|
|
"rstatus" keyword is prefixed with "!", then the response
|
|
will be considered invalid if the status code matches.
|
|
This is mostly used to check for multiple codes.
|
|
|
|
string <string> : test the exact string match in the HTTP response body.
|
|
A health check respose will be considered valid if the
|
|
response's body contains this exact string. If the
|
|
"string" keyword is prefixed with "!", then the response
|
|
will be considered invalid if the body contains this
|
|
string. This can be used to look for a mandatory word at
|
|
the end of a dynamic page, or to detect a failure when a
|
|
specific error appears on the check page (eg: a stack
|
|
trace).
|
|
|
|
rstring <regex> : test a regular expression on the HTTP response body.
|
|
A health check respose will be considered valid if the
|
|
response's body matches this expression. If the "rstring"
|
|
keyword is prefixed with "!", then the response will be
|
|
considered invalid if the body matches the expression.
|
|
This can be used to look for a mandatory word at the end
|
|
of a dynamic page, or to detect a failure when a specific
|
|
error appears on the check page (eg: a stack trace).
|
|
|
|
It is important to note that the responses will be limited to a certain size
|
|
defined by the global "tune.chksize" option, which defaults to 16384 bytes.
|
|
Thus, too large responses may not contain the mandatory pattern when using
|
|
"string" or "rstring". If a large response is absolutely required, it is
|
|
possible to change the default max size by setting the global variable.
|
|
However, it is worth keeping in mind that parsing very large responses can
|
|
waste some CPU cycles, especially when regular expressions are used, and that
|
|
it is always better to focus the checks on smaller resources.
|
|
|
|
Last, if "http-check expect" is combined with "http-check disable-on-404",
|
|
then this last one has precedence when the server responds with 404.
|
|
|
|
Examples :
|
|
# only accept status 200 as valid
|
|
http-check expect status 200
|
|
|
|
# consider SQL errors as errors
|
|
http-check expect ! string SQL\ Error
|
|
|
|
# consider status 5xx only as errors
|
|
http-check expect ! rstatus ^5
|
|
|
|
# check that we have a correct hexadecimal tag before /html
|
|
http-check expect rstring <!--tag:[0-9a-f]*</html>
|
|
|
|
See also : "option httpchk", "http-check disable-on-404"
|
|
|
|
|
|
http-check send-state
|
|
Enable emission of a state header with HTTP health checks
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
When this option is set, haproxy will systematically send a special header
|
|
"X-Haproxy-Server-State" with a list of parameters indicating to each server
|
|
how they are seen by haproxy. This can be used for instance when a server is
|
|
manipulated without access to haproxy and the operator needs to know whether
|
|
haproxy still sees it up or not, or if the server is the last one in a farm.
|
|
|
|
The header is composed of fields delimited by semi-colons, the first of which
|
|
is a word ("UP", "DOWN", "NOLB"), possibly followed by a number of valid
|
|
checks on the total number before transition, just as appears in the stats
|
|
interface. Next headers are in the form "<variable>=<value>", indicating in
|
|
no specific order some values available in the stats interface :
|
|
- a variable "name", containing the name of the backend followed by a slash
|
|
("/") then the name of the server. This can be used when a server is
|
|
checked in multiple backends.
|
|
|
|
- a variable "node" containing the name of the haproxy node, as set in the
|
|
global "node" variable, otherwise the system's hostname if unspecified.
|
|
|
|
- a variable "weight" indicating the weight of the server, a slash ("/")
|
|
and the total weight of the farm (just counting usable servers). This
|
|
helps to know if other servers are available to handle the load when this
|
|
one fails.
|
|
|
|
- a variable "scur" indicating the current number of concurrent connections
|
|
on the server, followed by a slash ("/") then the total number of
|
|
connections on all servers of the same backend.
|
|
|
|
- a variable "qcur" indicating the current number of requests in the
|
|
server's queue.
|
|
|
|
Example of a header received by the application server :
|
|
>>> X-Haproxy-Server-State: UP 2/3; name=bck/srv2; node=lb1; weight=1/2; \
|
|
scur=13/22; qcur=0
|
|
|
|
See also : "option httpchk", "http-check disable-on-404"
|
|
|
|
http-request { allow | deny | auth [realm <realm>] }
|
|
[ { if | unless } <condition> ]
|
|
Access control for Layer 7 requests
|
|
|
|
May be used in sections: defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
|
|
These set of options allow to fine control access to a
|
|
frontend/listen/backend. Each option may be followed by if/unless and acl.
|
|
First option with matched condition (or option without condition) is final.
|
|
For "deny" a 403 error will be returned, for "allow" normal processing is
|
|
performed, for "auth" a 401/407 error code is returned so the client
|
|
should be asked to enter a username and password.
|
|
|
|
There is no fixed limit to the number of http-request statements per
|
|
instance.
|
|
|
|
Example:
|
|
acl nagios src 192.168.129.3
|
|
acl local_net src 192.168.0.0/16
|
|
acl auth_ok http_auth(L1)
|
|
|
|
http-request allow if nagios
|
|
http-request allow if local_net auth_ok
|
|
http-request auth realm Gimme if local_net auth_ok
|
|
http-request deny
|
|
|
|
Example:
|
|
acl auth_ok http_auth_group(L1) G1
|
|
|
|
http-request auth unless auth_ok
|
|
|
|
See also : "stats http-request", section 3.4 about userlists and section 7
|
|
about ACL usage.
|
|
|
|
id <value>
|
|
Set a persistent ID to a proxy.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments : none
|
|
|
|
Set a persistent ID for the proxy. This ID must be unique and positive.
|
|
An unused ID will automatically be assigned if unset. The first assigned
|
|
value will be 1. This ID is currently only returned in statistics.
|
|
|
|
|
|
ignore-persist { if | unless } <condition>
|
|
Declare a condition to ignore persistence
|
|
May be used in sections: defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
|
|
By default, when cookie persistence is enabled, every requests containing
|
|
the cookie are unconditionally persistent (assuming the target server is up
|
|
and running).
|
|
|
|
The "ignore-persist" statement allows one to declare various ACL-based
|
|
conditions which, when met, will cause a request to ignore persistence.
|
|
This is sometimes useful to load balance requests for static files, which
|
|
oftenly don't require persistence. This can also be used to fully disable
|
|
persistence for a specific User-Agent (for example, some web crawler bots).
|
|
|
|
Combined with "appsession", it can also help reduce HAProxy memory usage, as
|
|
the appsession table won't grow if persistence is ignored.
|
|
|
|
The persistence is ignored when an "if" condition is met, or unless an
|
|
"unless" condition is met.
|
|
|
|
See also : "force-persist", "cookie", and section 7 about ACL usage.
|
|
|
|
|
|
log global
|
|
log <address> <facility> [<level> [<minlevel>]]
|
|
Enable per-instance logging of events and traffic.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
global should be used when the instance's logging parameters are the
|
|
same as the global ones. This is the most common usage. "global"
|
|
replaces <address>, <facility> and <level> with those of the log
|
|
entries found in the "global" section. Only one "log global"
|
|
statement may be used per instance, and this form takes no other
|
|
parameter.
|
|
|
|
<address> indicates where to send the logs. It takes the same format as
|
|
for the "global" section's logs, and can be one of :
|
|
|
|
- An IPv4 address optionally followed by a colon (':') and a UDP
|
|
port. If no port is specified, 514 is used by default (the
|
|
standard syslog port).
|
|
|
|
- An IPv6 address followed by a colon (':') and optionally a UDP
|
|
port. If no port is specified, 514 is used by default (the
|
|
standard syslog port).
|
|
|
|
- A filesystem path to a UNIX domain socket, keeping in mind
|
|
considerations for chroot (be sure the path is accessible
|
|
inside the chroot) and uid/gid (be sure the path is
|
|
appropriately writeable).
|
|
|
|
<facility> must be one of the 24 standard syslog facilities :
|
|
|
|
kern user mail daemon auth syslog lpr news
|
|
uucp cron auth2 ftp ntp audit alert cron2
|
|
local0 local1 local2 local3 local4 local5 local6 local7
|
|
|
|
<level> is optional and can be specified to filter outgoing messages. By
|
|
default, all messages are sent. If a level is specified, only
|
|
messages with a severity at least as important as this level
|
|
will be sent. An optional minimum level can be specified. If it
|
|
is set, logs emitted with a more severe level than this one will
|
|
be capped to this level. This is used to avoid sending "emerg"
|
|
messages on all terminals on some default syslog configurations.
|
|
Eight levels are known :
|
|
|
|
emerg alert crit err warning notice info debug
|
|
|
|
Note that up to two "log" entries may be specified per instance. However, if
|
|
"log global" is used and if the "global" section already contains 2 log
|
|
entries, then additional log entries will be ignored.
|
|
|
|
Also, it is important to keep in mind that it is the frontend which decides
|
|
what to log from a connection, and that in case of content switching, the log
|
|
entries from the backend will be ignored. Connections are logged at level
|
|
"info".
|
|
|
|
However, backend log declaration define how and where servers status changes
|
|
will be logged. Level "notice" will be used to indicate a server going up,
|
|
"warning" will be used for termination signals and definitive service
|
|
termination, and "alert" will be used for when a server goes down.
|
|
|
|
Note : According to RFC3164, messages are truncated to 1024 bytes before
|
|
being emitted.
|
|
|
|
Example :
|
|
log global
|
|
log 127.0.0.1:514 local0 notice # only send important events
|
|
log 127.0.0.1:514 local0 notice notice # same but limit output level
|
|
|
|
|
|
maxconn <conns>
|
|
Fix the maximum number of concurrent connections on a frontend
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments :
|
|
<conns> is the maximum number of concurrent connections the frontend will
|
|
accept to serve. Excess connections will be queued by the system
|
|
in the socket's listen queue and will be served once a connection
|
|
closes.
|
|
|
|
If the system supports it, it can be useful on big sites to raise this limit
|
|
very high so that haproxy manages connection queues, instead of leaving the
|
|
clients with unanswered connection attempts. This value should not exceed the
|
|
global maxconn. Also, keep in mind that a connection contains two buffers
|
|
of 8kB each, as well as some other data resulting in about 17 kB of RAM being
|
|
consumed per established connection. That means that a medium system equipped
|
|
with 1GB of RAM can withstand around 40000-50000 concurrent connections if
|
|
properly tuned.
|
|
|
|
Also, when <conns> is set to large values, it is possible that the servers
|
|
are not sized to accept such loads, and for this reason it is generally wise
|
|
to assign them some reasonable connection limits.
|
|
|
|
See also : "server", global section's "maxconn", "fullconn"
|
|
|
|
|
|
mode { tcp|http|health }
|
|
Set the running mode or protocol of the instance
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
tcp The instance will work in pure TCP mode. A full-duplex connection
|
|
will be established between clients and servers, and no layer 7
|
|
examination will be performed. This is the default mode. It
|
|
should be used for SSL, SSH, SMTP, ...
|
|
|
|
http The instance will work in HTTP mode. The client request will be
|
|
analyzed in depth before connecting to any server. Any request
|
|
which is not RFC-compliant will be rejected. Layer 7 filtering,
|
|
processing and switching will be possible. This is the mode which
|
|
brings HAProxy most of its value.
|
|
|
|
health The instance will work in "health" mode. It will just reply "OK"
|
|
to incoming connections and close the connection. Nothing will be
|
|
logged. This mode is used to reply to external components health
|
|
checks. This mode is deprecated and should not be used anymore as
|
|
it is possible to do the same and even better by combining TCP or
|
|
HTTP modes with the "monitor" keyword.
|
|
|
|
When doing content switching, it is mandatory that the frontend and the
|
|
backend are in the same mode (generally HTTP), otherwise the configuration
|
|
will be refused.
|
|
|
|
Example :
|
|
defaults http_instances
|
|
mode http
|
|
|
|
See also : "monitor", "monitor-net"
|
|
|
|
|
|
monitor fail { if | unless } <condition>
|
|
Add a condition to report a failure to a monitor HTTP request.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | no
|
|
Arguments :
|
|
if <cond> the monitor request will fail if the condition is satisfied,
|
|
and will succeed otherwise. The condition should describe a
|
|
combined test which must induce a failure if all conditions
|
|
are met, for instance a low number of servers both in a
|
|
backend and its backup.
|
|
|
|
unless <cond> the monitor request will succeed only if the condition is
|
|
satisfied, and will fail otherwise. Such a condition may be
|
|
based on a test on the presence of a minimum number of active
|
|
servers in a list of backends.
|
|
|
|
This statement adds a condition which can force the response to a monitor
|
|
request to report a failure. By default, when an external component queries
|
|
the URI dedicated to monitoring, a 200 response is returned. When one of the
|
|
conditions above is met, haproxy will return 503 instead of 200. This is
|
|
very useful to report a site failure to an external component which may base
|
|
routing advertisements between multiple sites on the availability reported by
|
|
haproxy. In this case, one would rely on an ACL involving the "nbsrv"
|
|
criterion. Note that "monitor fail" only works in HTTP mode. Both status
|
|
messages may be tweaked using "errorfile" or "errorloc" if needed.
|
|
|
|
Example:
|
|
frontend www
|
|
mode http
|
|
acl site_dead nbsrv(dynamic) lt 2
|
|
acl site_dead nbsrv(static) lt 2
|
|
monitor-uri /site_alive
|
|
monitor fail if site_dead
|
|
|
|
See also : "monitor-net", "monitor-uri", "errorfile", "errorloc"
|
|
|
|
|
|
monitor-net <source>
|
|
Declare a source network which is limited to monitor requests
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments :
|
|
<source> is the source IPv4 address or network which will only be able to
|
|
get monitor responses to any request. It can be either an IPv4
|
|
address, a host name, or an address followed by a slash ('/')
|
|
followed by a mask.
|
|
|
|
In TCP mode, any connection coming from a source matching <source> will cause
|
|
the connection to be immediately closed without any log. This allows another
|
|
equipment to probe the port and verify that it is still listening, without
|
|
forwarding the connection to a remote server.
|
|
|
|
In HTTP mode, a connection coming from a source matching <source> will be
|
|
accepted, the following response will be sent without waiting for a request,
|
|
then the connection will be closed : "HTTP/1.0 200 OK". This is normally
|
|
enough for any front-end HTTP probe to detect that the service is UP and
|
|
running without forwarding the request to a backend server.
|
|
|
|
Monitor requests are processed very early. It is not possible to block nor
|
|
divert them using ACLs. They cannot be logged either, and it is the intended
|
|
purpose. They are only used to report HAProxy's health to an upper component,
|
|
nothing more. Right now, it is not possible to set failure conditions on
|
|
requests caught by "monitor-net".
|
|
|
|
Last, please note that only one "monitor-net" statement can be specified in
|
|
a frontend. If more than one is found, only the last one will be considered.
|
|
|
|
Example :
|
|
# addresses .252 and .253 are just probing us.
|
|
frontend www
|
|
monitor-net 192.168.0.252/31
|
|
|
|
See also : "monitor fail", "monitor-uri"
|
|
|
|
|
|
monitor-uri <uri>
|
|
Intercept a URI used by external components' monitor requests
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments :
|
|
<uri> is the exact URI which we want to intercept to return HAProxy's
|
|
health status instead of forwarding the request.
|
|
|
|
When an HTTP request referencing <uri> will be received on a frontend,
|
|
HAProxy will not forward it nor log it, but instead will return either
|
|
"HTTP/1.0 200 OK" or "HTTP/1.0 503 Service unavailable", depending on failure
|
|
conditions defined with "monitor fail". This is normally enough for any
|
|
front-end HTTP probe to detect that the service is UP and running without
|
|
forwarding the request to a backend server. Note that the HTTP method, the
|
|
version and all headers are ignored, but the request must at least be valid
|
|
at the HTTP level. This keyword may only be used with an HTTP-mode frontend.
|
|
|
|
Monitor requests are processed very early. It is not possible to block nor
|
|
divert them using ACLs. They cannot be logged either, and it is the intended
|
|
purpose. They are only used to report HAProxy's health to an upper component,
|
|
nothing more. However, it is possible to add any number of conditions using
|
|
"monitor fail" and ACLs so that the result can be adjusted to whatever check
|
|
can be imagined (most often the number of available servers in a backend).
|
|
|
|
Example :
|
|
# Use /haproxy_test to report haproxy's status
|
|
frontend www
|
|
mode http
|
|
monitor-uri /haproxy_test
|
|
|
|
See also : "monitor fail", "monitor-net"
|
|
|
|
|
|
option abortonclose
|
|
no option abortonclose
|
|
Enable or disable early dropping of aborted requests pending in queues.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
In presence of very high loads, the servers will take some time to respond.
|
|
The per-instance connection queue will inflate, and the response time will
|
|
increase respective to the size of the queue times the average per-session
|
|
response time. When clients will wait for more than a few seconds, they will
|
|
often hit the "STOP" button on their browser, leaving a useless request in
|
|
the queue, and slowing down other users, and the servers as well, because the
|
|
request will eventually be served, then aborted at the first error
|
|
encountered while delivering the response.
|
|
|
|
As there is no way to distinguish between a full STOP and a simple output
|
|
close on the client side, HTTP agents should be conservative and consider
|
|
that the client might only have closed its output channel while waiting for
|
|
the response. However, this introduces risks of congestion when lots of users
|
|
do the same, and is completely useless nowadays because probably no client at
|
|
all will close the session while waiting for the response. Some HTTP agents
|
|
support this behaviour (Squid, Apache, HAProxy), and others do not (TUX, most
|
|
hardware-based load balancers). So the probability for a closed input channel
|
|
to represent a user hitting the "STOP" button is close to 100%, and the risk
|
|
of being the single component to break rare but valid traffic is extremely
|
|
low, which adds to the temptation to be able to abort a session early while
|
|
still not served and not pollute the servers.
|
|
|
|
In HAProxy, the user can choose the desired behaviour using the option
|
|
"abortonclose". By default (without the option) the behaviour is HTTP
|
|
compliant and aborted requests will be served. But when the option is
|
|
specified, a session with an incoming channel closed will be aborted while
|
|
it is still possible, either pending in the queue for a connection slot, or
|
|
during the connection establishment if the server has not yet acknowledged
|
|
the connection request. This considerably reduces the queue size and the load
|
|
on saturated servers when users are tempted to click on STOP, which in turn
|
|
reduces the response time for other users.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "timeout queue" and server's "maxconn" and "maxqueue" parameters
|
|
|
|
|
|
option accept-invalid-http-request
|
|
no option accept-invalid-http-request
|
|
Enable or disable relaxing of HTTP request parsing
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments : none
|
|
|
|
By default, HAProxy complies with RFC2616 in terms of message parsing. This
|
|
means that invalid characters in header names are not permitted and cause an
|
|
error to be returned to the client. This is the desired behaviour as such
|
|
forbidden characters are essentially used to build attacks exploiting server
|
|
weaknesses, and bypass security filtering. Sometimes, a buggy browser or
|
|
server will emit invalid header names for whatever reason (configuration,
|
|
implementation) and the issue will not be immediately fixed. In such a case,
|
|
it is possible to relax HAProxy's header name parser to accept any character
|
|
even if that does not make sense, by specifying this option.
|
|
|
|
This option should never be enabled by default as it hides application bugs
|
|
and open security breaches. It should only be deployed after a problem has
|
|
been confirmed.
|
|
|
|
When this option is enabled, erroneous header names will still be accepted in
|
|
requests, but the complete request will be captured in order to permit later
|
|
analysis using the "show errors" request on the UNIX stats socket. Doing this
|
|
also helps confirming that the issue has been solved.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option accept-invalid-http-response" and "show errors" on the
|
|
stats socket.
|
|
|
|
|
|
option accept-invalid-http-response
|
|
no option accept-invalid-http-response
|
|
Enable or disable relaxing of HTTP response parsing
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
By default, HAProxy complies with RFC2616 in terms of message parsing. This
|
|
means that invalid characters in header names are not permitted and cause an
|
|
error to be returned to the client. This is the desired behaviour as such
|
|
forbidden characters are essentially used to build attacks exploiting server
|
|
weaknesses, and bypass security filtering. Sometimes, a buggy browser or
|
|
server will emit invalid header names for whatever reason (configuration,
|
|
implementation) and the issue will not be immediately fixed. In such a case,
|
|
it is possible to relax HAProxy's header name parser to accept any character
|
|
even if that does not make sense, by specifying this option.
|
|
|
|
This option should never be enabled by default as it hides application bugs
|
|
and open security breaches. It should only be deployed after a problem has
|
|
been confirmed.
|
|
|
|
When this option is enabled, erroneous header names will still be accepted in
|
|
responses, but the complete response will be captured in order to permit
|
|
later analysis using the "show errors" request on the UNIX stats socket.
|
|
Doing this also helps confirming that the issue has been solved.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option accept-invalid-http-request" and "show errors" on the
|
|
stats socket.
|
|
|
|
|
|
option allbackups
|
|
no option allbackups
|
|
Use either all backup servers at a time or only the first one
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
By default, the first operational backup server gets all traffic when normal
|
|
servers are all down. Sometimes, it may be preferred to use multiple backups
|
|
at once, because one will not be enough. When "option allbackups" is enabled,
|
|
the load balancing will be performed among all backup servers when all normal
|
|
ones are unavailable. The same load balancing algorithm will be used and the
|
|
servers' weights will be respected. Thus, there will not be any priority
|
|
order between the backup servers anymore.
|
|
|
|
This option is mostly used with static server farms dedicated to return a
|
|
"sorry" page when an application is completely offline.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
|
|
option checkcache
|
|
no option checkcache
|
|
Analyze all server responses and block requests with cacheable cookies
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
Some high-level frameworks set application cookies everywhere and do not
|
|
always let enough control to the developer to manage how the responses should
|
|
be cached. When a session cookie is returned on a cacheable object, there is a
|
|
high risk of session crossing or stealing between users traversing the same
|
|
caches. In some situations, it is better to block the response than to let
|
|
some sensible session information go in the wild.
|
|
|
|
The option "checkcache" enables deep inspection of all server responses for
|
|
strict compliance with HTTP specification in terms of cacheability. It
|
|
carefully checks "Cache-control", "Pragma" and "Set-cookie" headers in server
|
|
response to check if there's a risk of caching a cookie on a client-side
|
|
proxy. When this option is enabled, the only responses which can be delivered
|
|
to the client are :
|
|
- all those without "Set-Cookie" header ;
|
|
- all those with a return code other than 200, 203, 206, 300, 301, 410,
|
|
provided that the server has not set a "Cache-control: public" header ;
|
|
- all those that come from a POST request, provided that the server has not
|
|
set a 'Cache-Control: public' header ;
|
|
- those with a 'Pragma: no-cache' header
|
|
- those with a 'Cache-control: private' header
|
|
- those with a 'Cache-control: no-store' header
|
|
- those with a 'Cache-control: max-age=0' header
|
|
- those with a 'Cache-control: s-maxage=0' header
|
|
- those with a 'Cache-control: no-cache' header
|
|
- those with a 'Cache-control: no-cache="set-cookie"' header
|
|
- those with a 'Cache-control: no-cache="set-cookie,' header
|
|
(allowing other fields after set-cookie)
|
|
|
|
If a response doesn't respect these requirements, then it will be blocked
|
|
just as if it was from an "rspdeny" filter, with an "HTTP 502 bad gateway".
|
|
The session state shows "PH--" meaning that the proxy blocked the response
|
|
during headers processing. Additionally, an alert will be sent in the logs so
|
|
that admins are informed that there's something to be fixed.
|
|
|
|
Due to the high impact on the application, the application should be tested
|
|
in depth with the option enabled before going to production. It is also a
|
|
good practice to always activate it during tests, even if it is not used in
|
|
production, as it will report potentially dangerous application behaviours.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
|
|
option clitcpka
|
|
no option clitcpka
|
|
Enable or disable the sending of TCP keepalive packets on the client side
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments : none
|
|
|
|
When there is a firewall or any session-aware component between a client and
|
|
a server, and when the protocol involves very long sessions with long idle
|
|
periods (eg: remote desktops), there is a risk that one of the intermediate
|
|
components decides to expire a session which has remained idle for too long.
|
|
|
|
Enabling socket-level TCP keep-alives makes the system regularly send packets
|
|
to the other end of the connection, leaving it active. The delay between
|
|
keep-alive probes is controlled by the system only and depends both on the
|
|
operating system and its tuning parameters.
|
|
|
|
It is important to understand that keep-alive packets are neither emitted nor
|
|
received at the application level. It is only the network stacks which sees
|
|
them. For this reason, even if one side of the proxy already uses keep-alives
|
|
to maintain its connection alive, those keep-alive packets will not be
|
|
forwarded to the other side of the proxy.
|
|
|
|
Please note that this has nothing to do with HTTP keep-alive.
|
|
|
|
Using option "clitcpka" enables the emission of TCP keep-alive probes on the
|
|
client side of a connection, which should help when session expirations are
|
|
noticed between HAProxy and a client.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option srvtcpka", "option tcpka"
|
|
|
|
|
|
option contstats
|
|
Enable continuous traffic statistics updates
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments : none
|
|
|
|
By default, counters used for statistics calculation are incremented
|
|
only when a session finishes. It works quite well when serving small
|
|
objects, but with big ones (for example large images or archives) or
|
|
with A/V streaming, a graph generated from haproxy counters looks like
|
|
a hedgehog. With this option enabled counters get incremented continuously,
|
|
during a whole session. Recounting touches a hotpath directly so
|
|
it is not enabled by default, as it has small performance impact (~0.5%).
|
|
|
|
|
|
option dontlog-normal
|
|
no option dontlog-normal
|
|
Enable or disable logging of normal, successful connections
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments : none
|
|
|
|
There are large sites dealing with several thousand connections per second
|
|
and for which logging is a major pain. Some of them are even forced to turn
|
|
logs off and cannot debug production issues. Setting this option ensures that
|
|
normal connections, those which experience no error, no timeout, no retry nor
|
|
redispatch, will not be logged. This leaves disk space for anomalies. In HTTP
|
|
mode, the response status code is checked and return codes 5xx will still be
|
|
logged.
|
|
|
|
It is strongly discouraged to use this option as most of the time, the key to
|
|
complex issues is in the normal logs which will not be logged here. If you
|
|
need to separate logs, see the "log-separate-errors" option instead.
|
|
|
|
See also : "log", "dontlognull", "log-separate-errors" and section 8 about
|
|
logging.
|
|
|
|
|
|
option dontlognull
|
|
no option dontlognull
|
|
Enable or disable logging of null connections
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments : none
|
|
|
|
In certain environments, there are components which will regularly connect to
|
|
various systems to ensure that they are still alive. It can be the case from
|
|
another load balancer as well as from monitoring systems. By default, even a
|
|
simple port probe or scan will produce a log. If those connections pollute
|
|
the logs too much, it is possible to enable option "dontlognull" to indicate
|
|
that a connection on which no data has been transferred will not be logged,
|
|
which typically corresponds to those probes.
|
|
|
|
It is generally recommended not to use this option in uncontrolled
|
|
environments (eg: internet), otherwise scans and other malicious activities
|
|
would not be logged.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "log", "monitor-net", "monitor-uri" and section 8 about logging.
|
|
|
|
|
|
option forceclose
|
|
no option forceclose
|
|
Enable or disable active connection closing after response is transferred.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
Some HTTP servers do not necessarily close the connections when they receive
|
|
the "Connection: close" set by "option httpclose", and if the client does not
|
|
close either, then the connection remains open till the timeout expires. This
|
|
causes high number of simultaneous connections on the servers and shows high
|
|
global session times in the logs.
|
|
|
|
When this happens, it is possible to use "option forceclose". It will
|
|
actively close the outgoing server channel as soon as the server has finished
|
|
to respond. This option implicitly enables the "httpclose" option. Note that
|
|
this option also enables the parsing of the full request and response, which
|
|
means we can close the connection to the server very quickly, releasing some
|
|
resources earlier than with httpclose.
|
|
|
|
This option may also be combined with "option http-pretend-keepalive", which
|
|
will disable sending of the "Connection: close" header, but will still cause
|
|
the connection to be closed once the whole response is received.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option httpclose" and "option http-pretend-keepalive"
|
|
|
|
|
|
option forwardfor [ except <network> ] [ header <name> ]
|
|
Enable insertion of the X-Forwarded-For header to requests sent to servers
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
<network> is an optional argument used to disable this option for sources
|
|
matching <network>
|
|
<name> an optional argument to specify a different "X-Forwarded-For"
|
|
header name.
|
|
|
|
Since HAProxy works in reverse-proxy mode, the servers see its IP address as
|
|
their client address. This is sometimes annoying when the client's IP address
|
|
is expected in server logs. To solve this problem, the well-known HTTP header
|
|
"X-Forwarded-For" may be added by HAProxy to all requests sent to the server.
|
|
This header contains a value representing the client's IP address. Since this
|
|
header is always appended at the end of the existing header list, the server
|
|
must be configured to always use the last occurrence of this header only. See
|
|
the server's manual to find how to enable use of this standard header. Note
|
|
that only the last occurrence of the header must be used, since it is really
|
|
possible that the client has already brought one.
|
|
|
|
The keyword "header" may be used to supply a different header name to replace
|
|
the default "X-Forwarded-For". This can be useful where you might already
|
|
have a "X-Forwarded-For" header from a different application (eg: stunnel),
|
|
and you need preserve it. Also if your backend server doesn't use the
|
|
"X-Forwarded-For" header and requires different one (eg: Zeus Web Servers
|
|
require "X-Cluster-Client-IP").
|
|
|
|
Sometimes, a same HAProxy instance may be shared between a direct client
|
|
access and a reverse-proxy access (for instance when an SSL reverse-proxy is
|
|
used to decrypt HTTPS traffic). It is possible to disable the addition of the
|
|
header for a known source address or network by adding the "except" keyword
|
|
followed by the network address. In this case, any source IP matching the
|
|
network will not cause an addition of this header. Most common uses are with
|
|
private networks or 127.0.0.1.
|
|
|
|
This option may be specified either in the frontend or in the backend. If at
|
|
least one of them uses it, the header will be added. Note that the backend's
|
|
setting of the header subargument takes precedence over the frontend's if
|
|
both are defined.
|
|
|
|
It is important to note that as long as HAProxy does not support keep-alive
|
|
connections, only the first request of a connection will receive the header.
|
|
For this reason, it is important to ensure that "option httpclose" is set
|
|
when using this option.
|
|
|
|
Examples :
|
|
# Public HTTP address also used by stunnel on the same machine
|
|
frontend www
|
|
mode http
|
|
option forwardfor except 127.0.0.1 # stunnel already adds the header
|
|
|
|
# Those servers want the IP Address in X-Client
|
|
backend www
|
|
mode http
|
|
option forwardfor header X-Client
|
|
|
|
See also : "option httpclose"
|
|
|
|
|
|
option http-no-delay
|
|
no option http-no-delay
|
|
Instruct the system to favor low interactive delays over performance in HTTP
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
In HTTP, each payload is unidirectional and has no notion of interactivity.
|
|
Any agent is expected to queue data somewhat for a reasonably low delay.
|
|
There are some very rare server-to-server applications that abuse the HTTP
|
|
protocol and expect the payload phase to be highly interactive, with many
|
|
interleaved data chunks in both directions within a single request. This is
|
|
absolutely not supported by the HTTP specification and will not work across
|
|
most proxies or servers. When such applications attempt to do this through
|
|
haproxy, it works but they will experience high delays due to the network
|
|
optimizations which favor performance by instructing the system to wait for
|
|
enough data to be available in order to only send full packets. Typical
|
|
delays are around 200 ms per round trip. Note that this only happens with
|
|
abnormal uses. Normal uses such as CONNECT requests nor WebSockets are not
|
|
affected.
|
|
|
|
When "option http-no-delay" is present in either the frontend or the backend
|
|
used by a connection, all such optimizations will be disabled in order to
|
|
make the exchanges as fast as possible. Of course this offers no guarantee on
|
|
the functionality, as it may break at any other place. But if it works via
|
|
HAProxy, it will work as fast as possible. This option should never be used
|
|
by default, and should never be used at all unless such a buggy application
|
|
is discovered. The impact of using this option is an increase of bandwidth
|
|
usage and CPU usage, which may significantly lower performance in high
|
|
latency environments.
|
|
|
|
|
|
option http-pretend-keepalive
|
|
no option http-pretend-keepalive
|
|
Define whether haproxy will announce keepalive to the server or not
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
When running with "option http-server-close" or "option forceclose", haproxy
|
|
adds a "Connection: close" header to the request forwarded to the server.
|
|
Unfortunately, when some servers see this header, they automatically refrain
|
|
from using the chunked encoding for responses of unknown length, while this
|
|
is totally unrelated. The immediate effect is that this prevents haproxy from
|
|
maintaining the client connection alive. A second effect is that a client or
|
|
a cache could receive an incomplete response without being aware of it, and
|
|
consider the response complete.
|
|
|
|
By setting "option http-pretend-keepalive", haproxy will make the server
|
|
believe it will keep the connection alive. The server will then not fall back
|
|
to the abnormal undesired above. When haproxy gets the whole response, it
|
|
will close the connection with the server just as it would do with the
|
|
"forceclose" option. That way the client gets a normal response and the
|
|
connection is correctly closed on the server side.
|
|
|
|
It is recommended not to enable this option by default, because most servers
|
|
will more efficiently close the connection themselves after the last packet,
|
|
and release its buffers slightly earlier. Also, the added packet on the
|
|
network could slightly reduce the overall peak performance. However it is
|
|
worth noting that when this option is enabled, haproxy will have slightly
|
|
less work to do. So if haproxy is the bottleneck on the whole architecture,
|
|
enabling this option might save a few CPU cycles.
|
|
|
|
This option may be set both in a frontend and in a backend. It is enabled if
|
|
at least one of the frontend or backend holding a connection has it enabled.
|
|
This option may be compbined with "option httpclose", which will cause
|
|
keepalive to be announced to the server and close to be announced to the
|
|
client. This practice is discouraged though.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option forceclose" and "option http-server-close"
|
|
|
|
|
|
option http-server-close
|
|
no option http-server-close
|
|
Enable or disable HTTP connection closing on the server side
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
By default, when a client communicates with a server, HAProxy will only
|
|
analyze, log, and process the first request of each connection. Setting
|
|
"option http-server-close" enables HTTP connection-close mode on the server
|
|
side while keeping the ability to support HTTP keep-alive and pipelining on
|
|
the client side. This provides the lowest latency on the client side (slow
|
|
network) and the fastest session reuse on the server side to save server
|
|
resources, similarly to "option forceclose". It also permits non-keepalive
|
|
capable servers to be served in keep-alive mode to the clients if they
|
|
conform to the requirements of RFC2616. Please note that some servers do not
|
|
always conform to those requirements when they see "Connection: close" in the
|
|
request. The effect will be that keep-alive will never be used. A workaround
|
|
consists in enabling "option http-pretend-keepalive".
|
|
|
|
At the moment, logs will not indicate whether requests came from the same
|
|
session or not. The accept date reported in the logs corresponds to the end
|
|
of the previous request, and the request time corresponds to the time spent
|
|
waiting for a new request. The keep-alive request time is still bound to the
|
|
timeout defined by "timeout http-keep-alive" or "timeout http-request" if
|
|
not set.
|
|
|
|
This option may be set both in a frontend and in a backend. It is enabled if
|
|
at least one of the frontend or backend holding a connection has it enabled.
|
|
It is worth noting that "option forceclose" has precedence over "option
|
|
http-server-close" and that combining "http-server-close" with "httpclose"
|
|
basically achieve the same result as "forceclose".
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option forceclose", "option http-pretend-keepalive",
|
|
"option httpclose" and "1.1. The HTTP transaction model".
|
|
|
|
|
|
option http-use-proxy-header
|
|
no option http-use-proxy-header
|
|
Make use of non-standard Proxy-Connection header instead of Connection
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments : none
|
|
|
|
While RFC2616 explicitly states that HTTP/1.1 agents must use the
|
|
Connection header to indicate their wish of persistent or non-persistent
|
|
connections, both browsers and proxies ignore this header for proxied
|
|
connections and make use of the undocumented, non-standard Proxy-Connection
|
|
header instead. The issue begins when trying to put a load balancer between
|
|
browsers and such proxies, because there will be a difference between what
|
|
haproxy understands and what the client and the proxy agree on.
|
|
|
|
By setting this option in a frontend, haproxy can automatically switch to use
|
|
that non-standard header if it sees proxied requests. A proxied request is
|
|
defined here as one where the URI begins with neither a '/' nor a '*'. The
|
|
choice of header only affects requests passing through proxies making use of
|
|
one of the "httpclose", "forceclose" and "http-server-close" options. Note
|
|
that this option can only be specified in a frontend and will affect the
|
|
request along its whole life.
|
|
|
|
Also, when this option is set, a request which requires authentication will
|
|
automatically switch to use proxy authentication headers if it is itself a
|
|
proxied request. That makes it possible to check or enforce authentication in
|
|
front of an existing proxy.
|
|
|
|
This option should normally never be used, except in front of a proxy.
|
|
|
|
See also : "option httpclose", "option forceclose" and "option
|
|
http-server-close".
|
|
|
|
|
|
option httpchk
|
|
option httpchk <uri>
|
|
option httpchk <method> <uri>
|
|
option httpchk <method> <uri> <version>
|
|
Enable HTTP protocol to check on the servers health
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<method> is the optional HTTP method used with the requests. When not set,
|
|
the "OPTIONS" method is used, as it generally requires low server
|
|
processing and is easy to filter out from the logs. Any method
|
|
may be used, though it is not recommended to invent non-standard
|
|
ones.
|
|
|
|
<uri> is the URI referenced in the HTTP requests. It defaults to " / "
|
|
which is accessible by default on almost any server, but may be
|
|
changed to any other URI. Query strings are permitted.
|
|
|
|
<version> is the optional HTTP version string. It defaults to "HTTP/1.0"
|
|
but some servers might behave incorrectly in HTTP 1.0, so turning
|
|
it to HTTP/1.1 may sometimes help. Note that the Host field is
|
|
mandatory in HTTP/1.1, and as a trick, it is possible to pass it
|
|
after "\r\n" following the version string.
|
|
|
|
By default, server health checks only consist in trying to establish a TCP
|
|
connection. When "option httpchk" is specified, a complete HTTP request is
|
|
sent once the TCP connection is established, and responses 2xx and 3xx are
|
|
considered valid, while all other ones indicate a server failure, including
|
|
the lack of any response.
|
|
|
|
The port and interval are specified in the server configuration.
|
|
|
|
This option does not necessarily require an HTTP backend, it also works with
|
|
plain TCP backends. This is particularly useful to check simple scripts bound
|
|
to some dedicated ports using the inetd daemon.
|
|
|
|
Examples :
|
|
# Relay HTTPS traffic to Apache instance and check service availability
|
|
# using HTTP request "OPTIONS * HTTP/1.1" on port 80.
|
|
backend https_relay
|
|
mode tcp
|
|
option httpchk OPTIONS * HTTP/1.1\r\nHost:\ www
|
|
server apache1 192.168.1.1:443 check port 80
|
|
|
|
See also : "option ssl-hello-chk", "option smtpchk", "option mysql-check",
|
|
"option pgsql-check", "http-check" and the "check", "port" and
|
|
"inter" server options.
|
|
|
|
|
|
option httpclose
|
|
no option httpclose
|
|
Enable or disable passive HTTP connection closing
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
By default, when a client communicates with a server, HAProxy will only
|
|
analyze, log, and process the first request of each connection. If "option
|
|
httpclose" is set, it will check if a "Connection: close" header is already
|
|
set in each direction, and will add one if missing. Each end should react to
|
|
this by actively closing the TCP connection after each transfer, thus
|
|
resulting in a switch to the HTTP close mode. Any "Connection" header
|
|
different from "close" will also be removed.
|
|
|
|
It seldom happens that some servers incorrectly ignore this header and do not
|
|
close the connection eventhough they reply "Connection: close". For this
|
|
reason, they are not compatible with older HTTP 1.0 browsers. If this happens
|
|
it is possible to use the "option forceclose" which actively closes the
|
|
request connection once the server responds. Option "forceclose" also
|
|
releases the server connection earlier because it does not have to wait for
|
|
the client to acknowledge it.
|
|
|
|
This option may be set both in a frontend and in a backend. It is enabled if
|
|
at least one of the frontend or backend holding a connection has it enabled.
|
|
If "option forceclose" is specified too, it has precedence over "httpclose".
|
|
If "option http-server-close" is enabled at the same time as "httpclose", it
|
|
basically achieves the same result as "option forceclose".
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option forceclose", "option http-server-close" and
|
|
"1.1. The HTTP transaction model".
|
|
|
|
|
|
option httplog [ clf ]
|
|
Enable logging of HTTP request, session state and timers
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
clf if the "clf" argument is added, then the output format will be
|
|
the CLF format instead of HAProxy's default HTTP format. You can
|
|
use this when you need to feed HAProxy's logs through a specific
|
|
log analyser which only support the CLF format and which is not
|
|
extensible.
|
|
|
|
By default, the log output format is very poor, as it only contains the
|
|
source and destination addresses, and the instance name. By specifying
|
|
"option httplog", each log line turns into a much richer format including,
|
|
but not limited to, the HTTP request, the connection timers, the session
|
|
status, the connections numbers, the captured headers and cookies, the
|
|
frontend, backend and server name, and of course the source address and
|
|
ports.
|
|
|
|
This option may be set either in the frontend or the backend.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it. Specifying
|
|
only "option httplog" will automatically clear the 'clf' mode if it was set
|
|
by default.
|
|
|
|
See also : section 8 about logging.
|
|
|
|
|
|
option http_proxy
|
|
no option http_proxy
|
|
Enable or disable plain HTTP proxy mode
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
It sometimes happens that people need a pure HTTP proxy which understands
|
|
basic proxy requests without caching nor any fancy feature. In this case,
|
|
it may be worth setting up an HAProxy instance with the "option http_proxy"
|
|
set. In this mode, no server is declared, and the connection is forwarded to
|
|
the IP address and port found in the URL after the "http://" scheme.
|
|
|
|
No host address resolution is performed, so this only works when pure IP
|
|
addresses are passed. Since this option's usage perimeter is rather limited,
|
|
it will probably be used only by experts who know they need exactly it. Last,
|
|
if the clients are susceptible of sending keep-alive requests, it will be
|
|
needed to add "option httpclose" to ensure that all requests will correctly
|
|
be analyzed.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
Example :
|
|
# this backend understands HTTP proxy requests and forwards them directly.
|
|
backend direct_forward
|
|
option httpclose
|
|
option http_proxy
|
|
|
|
See also : "option httpclose"
|
|
|
|
|
|
option independant-streams
|
|
no option independant-streams
|
|
Enable or disable independant timeout processing for both directions
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
By default, when data is sent over a socket, both the write timeout and the
|
|
read timeout for that socket are refreshed, because we consider that there is
|
|
activity on that socket, and we have no other means of guessing if we should
|
|
receive data or not.
|
|
|
|
While this default behaviour is desirable for almost all applications, there
|
|
exists a situation where it is desirable to disable it, and only refresh the
|
|
read timeout if there are incoming data. This happens on sessions with large
|
|
timeouts and low amounts of exchanged data such as telnet session. If the
|
|
server suddenly disappears, the output data accumulates in the system's
|
|
socket buffers, both timeouts are correctly refreshed, and there is no way
|
|
to know the server does not receive them, so we don't timeout. However, when
|
|
the underlying protocol always echoes sent data, it would be enough by itself
|
|
to detect the issue using the read timeout. Note that this problem does not
|
|
happen with more verbose protocols because data won't accumulate long in the
|
|
socket buffers.
|
|
|
|
When this option is set on the frontend, it will disable read timeout updates
|
|
on data sent to the client. There probably is little use of this case. When
|
|
the option is set on the backend, it will disable read timeout updates on
|
|
data sent to the server. Doing so will typically break large HTTP posts from
|
|
slow lines, so use it with caution.
|
|
|
|
See also : "timeout client" and "timeout server"
|
|
|
|
|
|
option ldap-check
|
|
Use LDAPv3 health checks for server testing
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
It is possible to test that the server correctly talks LDAPv3 instead of just
|
|
testing that it accepts the TCP connection. When this option is set, an
|
|
LDAPv3 anonymous simple bind message is sent to the server, and the response
|
|
is analyzed to find an LDAPv3 bind response message.
|
|
|
|
The server is considered valid only when the LDAP response contains success
|
|
resultCode (http://tools.ietf.org/html/rfc4511#section-4.1.9).
|
|
|
|
Logging of bind requests is server dependent see your documentation how to
|
|
configure it.
|
|
|
|
Example :
|
|
option ldap-check
|
|
|
|
See also : "option httpchk"
|
|
|
|
|
|
option log-health-checks
|
|
no option log-health-checks
|
|
Enable or disable logging of health checks
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
Enable health checks logging so it possible to check for example what
|
|
was happening before a server crash. Failed health check are logged if
|
|
server is UP and succeeded health checks if server is DOWN, so the amount
|
|
of additional information is limited.
|
|
|
|
If health check logging is enabled no health check status is printed
|
|
when servers is set up UP/DOWN/ENABLED/DISABLED.
|
|
|
|
See also: "log" and section 8 about logging.
|
|
|
|
|
|
option log-separate-errors
|
|
no option log-separate-errors
|
|
Change log level for non-completely successful connections
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments : none
|
|
|
|
Sometimes looking for errors in logs is not easy. This option makes haproxy
|
|
raise the level of logs containing potentially interesting information such
|
|
as errors, timeouts, retries, redispatches, or HTTP status codes 5xx. The
|
|
level changes from "info" to "err". This makes it possible to log them
|
|
separately to a different file with most syslog daemons. Be careful not to
|
|
remove them from the original file, otherwise you would lose ordering which
|
|
provides very important information.
|
|
|
|
Using this option, large sites dealing with several thousand connections per
|
|
second may log normal traffic to a rotating buffer and only archive smaller
|
|
error logs.
|
|
|
|
See also : "log", "dontlognull", "dontlog-normal" and section 8 about
|
|
logging.
|
|
|
|
|
|
option logasap
|
|
no option logasap
|
|
Enable or disable early logging of HTTP requests
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments : none
|
|
|
|
By default, HTTP requests are logged upon termination so that the total
|
|
transfer time and the number of bytes appear in the logs. When large objects
|
|
are being transferred, it may take a while before the request appears in the
|
|
logs. Using "option logasap", the request gets logged as soon as the server
|
|
sends the complete headers. The only missing information in the logs will be
|
|
the total number of bytes which will indicate everything except the amount
|
|
of data transferred, and the total time which will not take the transfer
|
|
time into account. In such a situation, it's a good practice to capture the
|
|
"Content-Length" response header so that the logs at least indicate how many
|
|
bytes are expected to be transferred.
|
|
|
|
Examples :
|
|
listen http_proxy 0.0.0.0:80
|
|
mode http
|
|
option httplog
|
|
option logasap
|
|
log 192.168.2.200 local3
|
|
|
|
>>> Feb 6 12:14:14 localhost \
|
|
haproxy[14389]: 10.0.1.2:33317 [06/Feb/2009:12:14:14.655] http-in \
|
|
static/srv1 9/10/7/14/+30 200 +243 - - ---- 3/1/1/1/0 1/0 \
|
|
"GET /image.iso HTTP/1.0"
|
|
|
|
See also : "option httplog", "capture response header", and section 8 about
|
|
logging.
|
|
|
|
|
|
option mysql-check [ user <username> ]
|
|
Use MySQL health checks for server testing
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
user <username> This is the username which will be used when connecting
|
|
to MySQL server.
|
|
|
|
If you specify a username, the check consists of sending two MySQL packet,
|
|
one Client Authentication packet, and one QUIT packet, to correctly close
|
|
MySQL session. We then parse the MySQL Handshake Initialisation packet and/or
|
|
Error packet. It is a basic but useful test which does not produce error nor
|
|
aborted connect on the server. However, it requires adding an authorization
|
|
in the MySQL table, like this :
|
|
|
|
USE mysql;
|
|
INSERT INTO user (Host,User) values ('<ip_of_haproxy>','<username>');
|
|
FLUSH PRIVILEGES;
|
|
|
|
If you don't specify a username (it is deprecated and not recommended), the
|
|
check only consists in parsing the Mysql Handshake Initialisation packet or
|
|
Error packet, we don't send anything in this mode. It was reported that it
|
|
can generate lockout if check is too frequent and/or if there is not enough
|
|
traffic. In fact, you need in this case to check MySQL "max_connect_errors"
|
|
value as if a connection is established successfully within fewer than MySQL
|
|
"max_connect_errors" attempts after a previous connection was interrupted,
|
|
the error count for the host is cleared to zero. If HAProxy's server get
|
|
blocked, the "FLUSH HOSTS" statement is the only way to unblock it.
|
|
|
|
Remember that this does not check database presence nor database consistency.
|
|
To do this, you can use an external check with xinetd for example.
|
|
|
|
The check requires MySQL >=4.0, for older version, please use TCP check.
|
|
|
|
Most often, an incoming MySQL server needs to see the client's IP address for
|
|
various purposes, including IP privilege matching and connection logging.
|
|
When possible, it is often wise to masquerade the client's IP address when
|
|
connecting to the server using the "usesrc" argument of the "source" keyword,
|
|
which requires the cttproxy feature to be compiled in, and the MySQL server
|
|
to route the client via the machine hosting haproxy.
|
|
|
|
See also: "option httpchk"
|
|
|
|
option pgsql-check [ user <username> ]
|
|
Use PostgreSQL health checks for server testing
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
user <username> This is the username which will be used when connecting
|
|
to PostgreSQL server.
|
|
|
|
The check sends a PostgreSQL StartupMessage and waits for either
|
|
Authentication request or ErrorResponse message. It is a basic but useful
|
|
test which does not produce error nor aborted connect on the server.
|
|
This check is identical with the "mysql-check".
|
|
|
|
See also: "option httpchk"
|
|
|
|
option nolinger
|
|
no option nolinger
|
|
Enable or disable immediate session resource cleaning after close
|
|
May be used in sections: defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
When clients or servers abort connections in a dirty way (eg: they are
|
|
physically disconnected), the session timeouts triggers and the session is
|
|
closed. But it will remain in FIN_WAIT1 state for some time in the system,
|
|
using some resources and possibly limiting the ability to establish newer
|
|
connections.
|
|
|
|
When this happens, it is possible to activate "option nolinger" which forces
|
|
the system to immediately remove any socket's pending data on close. Thus,
|
|
the session is instantly purged from the system's tables. This usually has
|
|
side effects such as increased number of TCP resets due to old retransmits
|
|
getting immediately rejected. Some firewalls may sometimes complain about
|
|
this too.
|
|
|
|
For this reason, it is not recommended to use this option when not absolutely
|
|
needed. You know that you need it when you have thousands of FIN_WAIT1
|
|
sessions on your system (TIME_WAIT ones do not count).
|
|
|
|
This option may be used both on frontends and backends, depending on the side
|
|
where it is required. Use it on the frontend for clients, and on the backend
|
|
for servers.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
|
|
option originalto [ except <network> ] [ header <name> ]
|
|
Enable insertion of the X-Original-To header to requests sent to servers
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
<network> is an optional argument used to disable this option for sources
|
|
matching <network>
|
|
<name> an optional argument to specify a different "X-Original-To"
|
|
header name.
|
|
|
|
Since HAProxy can work in transparent mode, every request from a client can
|
|
be redirected to the proxy and HAProxy itself can proxy every request to a
|
|
complex SQUID environment and the destination host from SO_ORIGINAL_DST will
|
|
be lost. This is annoying when you want access rules based on destination ip
|
|
addresses. To solve this problem, a new HTTP header "X-Original-To" may be
|
|
added by HAProxy to all requests sent to the server. This header contains a
|
|
value representing the original destination IP address. Since this must be
|
|
configured to always use the last occurrence of this header only. Note that
|
|
only the last occurrence of the header must be used, since it is really
|
|
possible that the client has already brought one.
|
|
|
|
The keyword "header" may be used to supply a different header name to replace
|
|
the default "X-Original-To". This can be useful where you might already
|
|
have a "X-Original-To" header from a different application, and you need
|
|
preserve it. Also if your backend server doesn't use the "X-Original-To"
|
|
header and requires different one.
|
|
|
|
Sometimes, a same HAProxy instance may be shared between a direct client
|
|
access and a reverse-proxy access (for instance when an SSL reverse-proxy is
|
|
used to decrypt HTTPS traffic). It is possible to disable the addition of the
|
|
header for a known source address or network by adding the "except" keyword
|
|
followed by the network address. In this case, any source IP matching the
|
|
network will not cause an addition of this header. Most common uses are with
|
|
private networks or 127.0.0.1.
|
|
|
|
This option may be specified either in the frontend or in the backend. If at
|
|
least one of them uses it, the header will be added. Note that the backend's
|
|
setting of the header subargument takes precedence over the frontend's if
|
|
both are defined.
|
|
|
|
It is important to note that as long as HAProxy does not support keep-alive
|
|
connections, only the first request of a connection will receive the header.
|
|
For this reason, it is important to ensure that "option httpclose" is set
|
|
when using this option.
|
|
|
|
Examples :
|
|
# Original Destination address
|
|
frontend www
|
|
mode http
|
|
option originalto except 127.0.0.1
|
|
|
|
# Those servers want the IP Address in X-Client-Dst
|
|
backend www
|
|
mode http
|
|
option originalto header X-Client-Dst
|
|
|
|
See also : "option httpclose"
|
|
|
|
|
|
option persist
|
|
no option persist
|
|
Enable or disable forced persistence on down servers
|
|
May be used in sections: defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
When an HTTP request reaches a backend with a cookie which references a dead
|
|
server, by default it is redispatched to another server. It is possible to
|
|
force the request to be sent to the dead server first using "option persist"
|
|
if absolutely needed. A common use case is when servers are under extreme
|
|
load and spend their time flapping. In this case, the users would still be
|
|
directed to the server they opened the session on, in the hope they would be
|
|
correctly served. It is recommended to use "option redispatch" in conjunction
|
|
with this option so that in the event it would not be possible to connect to
|
|
the server at all (server definitely dead), the client would finally be
|
|
redirected to another valid server.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option redispatch", "retries", "force-persist"
|
|
|
|
|
|
option redispatch
|
|
no option redispatch
|
|
Enable or disable session redistribution in case of connection failure
|
|
May be used in sections: defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
In HTTP mode, if a server designated by a cookie is down, clients may
|
|
definitely stick to it because they cannot flush the cookie, so they will not
|
|
be able to access the service anymore.
|
|
|
|
Specifying "option redispatch" will allow the proxy to break their
|
|
persistence and redistribute them to a working server.
|
|
|
|
It also allows to retry last connection to another server in case of multiple
|
|
connection failures. Of course, it requires having "retries" set to a nonzero
|
|
value.
|
|
|
|
This form is the preferred form, which replaces both the "redispatch" and
|
|
"redisp" keywords.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "redispatch", "retries", "force-persist"
|
|
|
|
|
|
option smtpchk
|
|
option smtpchk <hello> <domain>
|
|
Use SMTP health checks for server testing
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<hello> is an optional argument. It is the "hello" command to use. It can
|
|
be either "HELO" (for SMTP) or "EHLO" (for ESTMP). All other
|
|
values will be turned into the default command ("HELO").
|
|
|
|
<domain> is the domain name to present to the server. It may only be
|
|
specified (and is mandatory) if the hello command has been
|
|
specified. By default, "localhost" is used.
|
|
|
|
When "option smtpchk" is set, the health checks will consist in TCP
|
|
connections followed by an SMTP command. By default, this command is
|
|
"HELO localhost". The server's return code is analyzed and only return codes
|
|
starting with a "2" will be considered as valid. All other responses,
|
|
including a lack of response will constitute an error and will indicate a
|
|
dead server.
|
|
|
|
This test is meant to be used with SMTP servers or relays. Depending on the
|
|
request, it is possible that some servers do not log each connection attempt,
|
|
so you may want to experiment to improve the behaviour. Using telnet on port
|
|
25 is often easier than adjusting the configuration.
|
|
|
|
Most often, an incoming SMTP server needs to see the client's IP address for
|
|
various purposes, including spam filtering, anti-spoofing and logging. When
|
|
possible, it is often wise to masquerade the client's IP address when
|
|
connecting to the server using the "usesrc" argument of the "source" keyword,
|
|
which requires the cttproxy feature to be compiled in.
|
|
|
|
Example :
|
|
option smtpchk HELO mydomain.org
|
|
|
|
See also : "option httpchk", "source"
|
|
|
|
|
|
option socket-stats
|
|
no option socket-stats
|
|
|
|
Enable or disable collecting & providing separate statistics for each socket.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
|
|
Arguments : none
|
|
|
|
|
|
option splice-auto
|
|
no option splice-auto
|
|
Enable or disable automatic kernel acceleration on sockets in both directions
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
When this option is enabled either on a frontend or on a backend, haproxy
|
|
will automatically evaluate the opportunity to use kernel tcp splicing to
|
|
forward data between the client and the server, in either direction. Haproxy
|
|
uses heuristics to estimate if kernel splicing might improve performance or
|
|
not. Both directions are handled independently. Note that the heuristics used
|
|
are not much aggressive in order to limit excessive use of splicing. This
|
|
option requires splicing to be enabled at compile time, and may be globally
|
|
disabled with the global option "nosplice". Since splice uses pipes, using it
|
|
requires that there are enough spare pipes.
|
|
|
|
Important note: kernel-based TCP splicing is a Linux-specific feature which
|
|
first appeared in kernel 2.6.25. It offers kernel-based acceleration to
|
|
transfer data between sockets without copying these data to user-space, thus
|
|
providing noticeable performance gains and CPU cycles savings. Since many
|
|
early implementations are buggy, corrupt data and/or are inefficient, this
|
|
feature is not enabled by default, and it should be used with extreme care.
|
|
While it is not possible to detect the correctness of an implementation,
|
|
2.6.29 is the first version offering a properly working implementation. In
|
|
case of doubt, splicing may be globally disabled using the global "nosplice"
|
|
keyword.
|
|
|
|
Example :
|
|
option splice-auto
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option splice-request", "option splice-response", and global
|
|
options "nosplice" and "maxpipes"
|
|
|
|
|
|
option splice-request
|
|
no option splice-request
|
|
Enable or disable automatic kernel acceleration on sockets for requests
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
When this option is enabled either on a frontend or on a backend, haproxy
|
|
will user kernel tcp splicing whenever possible to forward data going from
|
|
the client to the server. It might still use the recv/send scheme if there
|
|
are no spare pipes left. This option requires splicing to be enabled at
|
|
compile time, and may be globally disabled with the global option "nosplice".
|
|
Since splice uses pipes, using it requires that there are enough spare pipes.
|
|
|
|
Important note: see "option splice-auto" for usage limitations.
|
|
|
|
Example :
|
|
option splice-request
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option splice-auto", "option splice-response", and global options
|
|
"nosplice" and "maxpipes"
|
|
|
|
|
|
option splice-response
|
|
no option splice-response
|
|
Enable or disable automatic kernel acceleration on sockets for responses
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
When this option is enabled either on a frontend or on a backend, haproxy
|
|
will user kernel tcp splicing whenever possible to forward data going from
|
|
the server to the client. It might still use the recv/send scheme if there
|
|
are no spare pipes left. This option requires splicing to be enabled at
|
|
compile time, and may be globally disabled with the global option "nosplice".
|
|
Since splice uses pipes, using it requires that there are enough spare pipes.
|
|
|
|
Important note: see "option splice-auto" for usage limitations.
|
|
|
|
Example :
|
|
option splice-response
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option splice-auto", "option splice-request", and global options
|
|
"nosplice" and "maxpipes"
|
|
|
|
|
|
option srvtcpka
|
|
no option srvtcpka
|
|
Enable or disable the sending of TCP keepalive packets on the server side
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
When there is a firewall or any session-aware component between a client and
|
|
a server, and when the protocol involves very long sessions with long idle
|
|
periods (eg: remote desktops), there is a risk that one of the intermediate
|
|
components decides to expire a session which has remained idle for too long.
|
|
|
|
Enabling socket-level TCP keep-alives makes the system regularly send packets
|
|
to the other end of the connection, leaving it active. The delay between
|
|
keep-alive probes is controlled by the system only and depends both on the
|
|
operating system and its tuning parameters.
|
|
|
|
It is important to understand that keep-alive packets are neither emitted nor
|
|
received at the application level. It is only the network stacks which sees
|
|
them. For this reason, even if one side of the proxy already uses keep-alives
|
|
to maintain its connection alive, those keep-alive packets will not be
|
|
forwarded to the other side of the proxy.
|
|
|
|
Please note that this has nothing to do with HTTP keep-alive.
|
|
|
|
Using option "srvtcpka" enables the emission of TCP keep-alive probes on the
|
|
server side of a connection, which should help when session expirations are
|
|
noticed between HAProxy and a server.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option clitcpka", "option tcpka"
|
|
|
|
|
|
option ssl-hello-chk
|
|
Use SSLv3 client hello health checks for server testing
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
When some SSL-based protocols are relayed in TCP mode through HAProxy, it is
|
|
possible to test that the server correctly talks SSL instead of just testing
|
|
that it accepts the TCP connection. When "option ssl-hello-chk" is set, pure
|
|
SSLv3 client hello messages are sent once the connection is established to
|
|
the server, and the response is analyzed to find an SSL server hello message.
|
|
The server is considered valid only when the response contains this server
|
|
hello message.
|
|
|
|
All servers tested till there correctly reply to SSLv3 client hello messages,
|
|
and most servers tested do not even log the requests containing only hello
|
|
messages, which is appreciable.
|
|
|
|
See also: "option httpchk"
|
|
|
|
|
|
option tcp-smart-accept
|
|
no option tcp-smart-accept
|
|
Enable or disable the saving of one ACK packet during the accept sequence
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments : none
|
|
|
|
When an HTTP connection request comes in, the system acknowledges it on
|
|
behalf of HAProxy, then the client immediately sends its request, and the
|
|
system acknowledges it too while it is notifying HAProxy about the new
|
|
connection. HAProxy then reads the request and responds. This means that we
|
|
have one TCP ACK sent by the system for nothing, because the request could
|
|
very well be acknowledged by HAProxy when it sends its response.
|
|
|
|
For this reason, in HTTP mode, HAProxy automatically asks the system to avoid
|
|
sending this useless ACK on platforms which support it (currently at least
|
|
Linux). It must not cause any problem, because the system will send it anyway
|
|
after 40 ms if the response takes more time than expected to come.
|
|
|
|
During complex network debugging sessions, it may be desirable to disable
|
|
this optimization because delayed ACKs can make troubleshooting more complex
|
|
when trying to identify where packets are delayed. It is then possible to
|
|
fall back to normal behaviour by specifying "no option tcp-smart-accept".
|
|
|
|
It is also possible to force it for non-HTTP proxies by simply specifying
|
|
"option tcp-smart-accept". For instance, it can make sense with some services
|
|
such as SMTP where the server speaks first.
|
|
|
|
It is recommended to avoid forcing this option in a defaults section. In case
|
|
of doubt, consider setting it back to automatic values by prepending the
|
|
"default" keyword before it, or disabling it using the "no" keyword.
|
|
|
|
See also : "option tcp-smart-connect"
|
|
|
|
|
|
option tcp-smart-connect
|
|
no option tcp-smart-connect
|
|
Enable or disable the saving of one ACK packet during the connect sequence
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
On certain systems (at least Linux), HAProxy can ask the kernel not to
|
|
immediately send an empty ACK upon a connection request, but to directly
|
|
send the buffer request instead. This saves one packet on the network and
|
|
thus boosts performance. It can also be useful for some servers, because they
|
|
immediately get the request along with the incoming connection.
|
|
|
|
This feature is enabled when "option tcp-smart-connect" is set in a backend.
|
|
It is not enabled by default because it makes network troubleshooting more
|
|
complex.
|
|
|
|
It only makes sense to enable it with protocols where the client speaks first
|
|
such as HTTP. In other situations, if there is no data to send in place of
|
|
the ACK, a normal ACK is sent.
|
|
|
|
If this option has been enabled in a "defaults" section, it can be disabled
|
|
in a specific instance by prepending the "no" keyword before it.
|
|
|
|
See also : "option tcp-smart-accept"
|
|
|
|
|
|
option tcpka
|
|
Enable or disable the sending of TCP keepalive packets on both sides
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
When there is a firewall or any session-aware component between a client and
|
|
a server, and when the protocol involves very long sessions with long idle
|
|
periods (eg: remote desktops), there is a risk that one of the intermediate
|
|
components decides to expire a session which has remained idle for too long.
|
|
|
|
Enabling socket-level TCP keep-alives makes the system regularly send packets
|
|
to the other end of the connection, leaving it active. The delay between
|
|
keep-alive probes is controlled by the system only and depends both on the
|
|
operating system and its tuning parameters.
|
|
|
|
It is important to understand that keep-alive packets are neither emitted nor
|
|
received at the application level. It is only the network stacks which sees
|
|
them. For this reason, even if one side of the proxy already uses keep-alives
|
|
to maintain its connection alive, those keep-alive packets will not be
|
|
forwarded to the other side of the proxy.
|
|
|
|
Please note that this has nothing to do with HTTP keep-alive.
|
|
|
|
Using option "tcpka" enables the emission of TCP keep-alive probes on both
|
|
the client and server sides of a connection. Note that this is meaningful
|
|
only in "defaults" or "listen" sections. If this option is used in a
|
|
frontend, only the client side will get keep-alives, and if this option is
|
|
used in a backend, only the server side will get keep-alives. For this
|
|
reason, it is strongly recommended to explicitly use "option clitcpka" and
|
|
"option srvtcpka" when the configuration is split between frontends and
|
|
backends.
|
|
|
|
See also : "option clitcpka", "option srvtcpka"
|
|
|
|
|
|
option tcplog
|
|
Enable advanced logging of TCP connections with session state and timers
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments : none
|
|
|
|
By default, the log output format is very poor, as it only contains the
|
|
source and destination addresses, and the instance name. By specifying
|
|
"option tcplog", each log line turns into a much richer format including, but
|
|
not limited to, the connection timers, the session status, the connections
|
|
numbers, the frontend, backend and server name, and of course the source
|
|
address and ports. This option is useful for pure TCP proxies in order to
|
|
find which of the client or server disconnects or times out. For normal HTTP
|
|
proxies, it's better to use "option httplog" which is even more complete.
|
|
|
|
This option may be set either in the frontend or the backend.
|
|
|
|
See also : "option httplog", and section 8 about logging.
|
|
|
|
|
|
option transparent
|
|
no option transparent
|
|
Enable client-side transparent proxying
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
This option was introduced in order to provide layer 7 persistence to layer 3
|
|
load balancers. The idea is to use the OS's ability to redirect an incoming
|
|
connection for a remote address to a local process (here HAProxy), and let
|
|
this process know what address was initially requested. When this option is
|
|
used, sessions without cookies will be forwarded to the original destination
|
|
IP address of the incoming request (which should match that of another
|
|
equipment), while requests with cookies will still be forwarded to the
|
|
appropriate server.
|
|
|
|
Note that contrary to a common belief, this option does NOT make HAProxy
|
|
present the client's IP to the server when establishing the connection.
|
|
|
|
See also: the "usesrc" argument of the "source" keyword, and the
|
|
"transparent" option of the "bind" keyword.
|
|
|
|
|
|
persist rdp-cookie
|
|
persist rdp-cookie(name)
|
|
Enable RDP cookie-based persistence
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<name> is the optional name of the RDP cookie to check. If omitted, the
|
|
default cookie name "msts" will be used. There currently is no
|
|
valid reason to change this name.
|
|
|
|
This statement enables persistence based on an RDP cookie. The RDP cookie
|
|
contains all information required to find the server in the list of known
|
|
servers. So when this option is set in the backend, the request is analysed
|
|
and if an RDP cookie is found, it is decoded. If it matches a known server
|
|
which is still UP (or if "option persist" is set), then the connection is
|
|
forwarded to this server.
|
|
|
|
Note that this only makes sense in a TCP backend, but for this to work, the
|
|
frontend must have waited long enough to ensure that an RDP cookie is present
|
|
in the request buffer. This is the same requirement as with the "rdp-cookie"
|
|
load-balancing method. Thus it is highly recommended to put all statements in
|
|
a single "listen" section.
|
|
|
|
Also, it is important to understand that the terminal server will emit this
|
|
RDP cookie only if it is configured for "token redirection mode", which means
|
|
that the "IP address redirection" option is disabled.
|
|
|
|
Example :
|
|
listen tse-farm
|
|
bind :3389
|
|
# wait up to 5s for an RDP cookie in the request
|
|
tcp-request inspect-delay 5s
|
|
tcp-request content accept if RDP_COOKIE
|
|
# apply RDP cookie persistence
|
|
persist rdp-cookie
|
|
# if server is unknown, let's balance on the same cookie.
|
|
# alternatively, "balance leastconn" may be useful too.
|
|
balance rdp-cookie
|
|
server srv1 1.1.1.1:3389
|
|
server srv2 1.1.1.2:3389
|
|
|
|
See also : "balance rdp-cookie", "tcp-request" and the "req_rdp_cookie" ACL.
|
|
|
|
|
|
rate-limit sessions <rate>
|
|
Set a limit on the number of new sessions accepted per second on a frontend
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments :
|
|
<rate> The <rate> parameter is an integer designating the maximum number
|
|
of new sessions per second to accept on the frontend.
|
|
|
|
When the frontend reaches the specified number of new sessions per second, it
|
|
stops accepting new connections until the rate drops below the limit again.
|
|
During this time, the pending sessions will be kept in the socket's backlog
|
|
(in system buffers) and haproxy will not even be aware that sessions are
|
|
pending. When applying very low limit on a highly loaded service, it may make
|
|
sense to increase the socket's backlog using the "backlog" keyword.
|
|
|
|
This feature is particularly efficient at blocking connection-based attacks
|
|
or service abuse on fragile servers. Since the session rate is measured every
|
|
millisecond, it is extremely accurate. Also, the limit applies immediately,
|
|
no delay is needed at all to detect the threshold.
|
|
|
|
Example : limit the connection rate on SMTP to 10 per second max
|
|
listen smtp
|
|
mode tcp
|
|
bind :25
|
|
rate-limit sessions 10
|
|
server 127.0.0.1:1025
|
|
|
|
Note : when the maximum rate is reached, the frontend's status appears as
|
|
"FULL" in the statistics, exactly as when it is saturated.
|
|
|
|
See also : the "backlog" keyword and the "fe_sess_rate" ACL criterion.
|
|
|
|
|
|
redirect location <to> [code <code>] <option> [{if | unless} <condition>]
|
|
redirect prefix <to> [code <code>] <option> [{if | unless} <condition>]
|
|
Return an HTTP redirection if/unless a condition is matched
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
|
|
If/unless the condition is matched, the HTTP request will lead to a redirect
|
|
response. If no condition is specified, the redirect applies unconditionally.
|
|
|
|
Arguments :
|
|
<to> With "redirect location", the exact value in <to> is placed into
|
|
the HTTP "Location" header. In case of "redirect prefix", the
|
|
"Location" header is built from the concatenation of <to> and the
|
|
complete URI, including the query string, unless the "drop-query"
|
|
option is specified (see below). As a special case, if <to>
|
|
equals exactly "/" in prefix mode, then nothing is inserted
|
|
before the original URI. It allows one to redirect to the same
|
|
URL.
|
|
|
|
<code> The code is optional. It indicates which type of HTTP redirection
|
|
is desired. Only codes 301, 302 and 303 are supported, and 302 is
|
|
used if no code is specified. 301 means "Moved permanently", and
|
|
a browser may cache the Location. 302 means "Moved permanently"
|
|
and means that the browser should not cache the redirection. 303
|
|
is equivalent to 302 except that the browser will fetch the
|
|
location with a GET method.
|
|
|
|
<option> There are several options which can be specified to adjust the
|
|
expected behaviour of a redirection :
|
|
|
|
- "drop-query"
|
|
When this keyword is used in a prefix-based redirection, then the
|
|
location will be set without any possible query-string, which is useful
|
|
for directing users to a non-secure page for instance. It has no effect
|
|
with a location-type redirect.
|
|
|
|
- "append-slash"
|
|
This keyword may be used in conjunction with "drop-query" to redirect
|
|
users who use a URL not ending with a '/' to the same one with the '/'.
|
|
It can be useful to ensure that search engines will only see one URL.
|
|
For this, a return code 301 is preferred.
|
|
|
|
- "set-cookie NAME[=value]"
|
|
A "Set-Cookie" header will be added with NAME (and optionally "=value")
|
|
to the response. This is sometimes used to indicate that a user has
|
|
been seen, for instance to protect against some types of DoS. No other
|
|
cookie option is added, so the cookie will be a session cookie. Note
|
|
that for a browser, a sole cookie name without an equal sign is
|
|
different from a cookie with an equal sign.
|
|
|
|
- "clear-cookie NAME[=]"
|
|
A "Set-Cookie" header will be added with NAME (and optionally "="), but
|
|
with the "Max-Age" attribute set to zero. This will tell the browser to
|
|
delete this cookie. It is useful for instance on logout pages. It is
|
|
important to note that clearing the cookie "NAME" will not remove a
|
|
cookie set with "NAME=value". You have to clear the cookie "NAME=" for
|
|
that, because the browser makes the difference.
|
|
|
|
Example: move the login URL only to HTTPS.
|
|
acl clear dst_port 80
|
|
acl secure dst_port 8080
|
|
acl login_page url_beg /login
|
|
acl logout url_beg /logout
|
|
acl uid_given url_reg /login?userid=[^&]+
|
|
acl cookie_set hdr_sub(cookie) SEEN=1
|
|
|
|
redirect prefix https://mysite.com set-cookie SEEN=1 if !cookie_set
|
|
redirect prefix https://mysite.com if login_page !secure
|
|
redirect prefix http://mysite.com drop-query if login_page !uid_given
|
|
redirect location http://mysite.com/ if !login_page secure
|
|
redirect location / clear-cookie USERID= if logout
|
|
|
|
Example: send redirects for request for articles without a '/'.
|
|
acl missing_slash path_reg ^/article/[^/]*$
|
|
redirect code 301 prefix / drop-query append-slash if missing_slash
|
|
|
|
See section 7 about ACL usage.
|
|
|
|
|
|
redisp (deprecated)
|
|
redispatch (deprecated)
|
|
Enable or disable session redistribution in case of connection failure
|
|
May be used in sections: defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
In HTTP mode, if a server designated by a cookie is down, clients may
|
|
definitely stick to it because they cannot flush the cookie, so they will not
|
|
be able to access the service anymore.
|
|
|
|
Specifying "redispatch" will allow the proxy to break their persistence and
|
|
redistribute them to a working server.
|
|
|
|
It also allows to retry last connection to another server in case of multiple
|
|
connection failures. Of course, it requires having "retries" set to a nonzero
|
|
value.
|
|
|
|
This form is deprecated, do not use it in any new configuration, use the new
|
|
"option redispatch" instead.
|
|
|
|
See also : "option redispatch"
|
|
|
|
|
|
reqadd <string> [{if | unless} <cond>]
|
|
Add a header at the end of the HTTP request
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<string> is the complete line to be added. Any space or known delimiter
|
|
must be escaped using a backslash ('\'). Please refer to section
|
|
6 about HTTP header manipulation for more information.
|
|
|
|
<cond> is an optional matching condition built from ACLs. It makes it
|
|
possible to ignore this rule when other conditions are not met.
|
|
|
|
A new line consisting in <string> followed by a line feed will be added after
|
|
the last header of an HTTP request.
|
|
|
|
Header transformations only apply to traffic which passes through HAProxy,
|
|
and not to traffic generated by HAProxy, such as health-checks or error
|
|
responses.
|
|
|
|
Example : add "X-Proto: SSL" to requests coming via port 81
|
|
acl is-ssl dst_port 81
|
|
reqadd X-Proto:\ SSL if is-ssl
|
|
|
|
See also: "rspadd", section 6 about HTTP header manipulation, and section 7
|
|
about ACLs.
|
|
|
|
|
|
reqallow <search> [{if | unless} <cond>]
|
|
reqiallow <search> [{if | unless} <cond>] (ignore case)
|
|
Definitely allow an HTTP request if a line matches a regular expression
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<search> is the regular expression applied to HTTP headers and to the
|
|
request line. This is an extended regular expression. Parenthesis
|
|
grouping is supported and no preliminary backslash is required.
|
|
Any space or known delimiter must be escaped using a backslash
|
|
('\'). The pattern applies to a full line at a time. The
|
|
"reqallow" keyword strictly matches case while "reqiallow"
|
|
ignores case.
|
|
|
|
<cond> is an optional matching condition built from ACLs. It makes it
|
|
possible to ignore this rule when other conditions are not met.
|
|
|
|
A request containing any line which matches extended regular expression
|
|
<search> will mark the request as allowed, even if any later test would
|
|
result in a deny. The test applies both to the request line and to request
|
|
headers. Keep in mind that URLs in request line are case-sensitive while
|
|
header names are not.
|
|
|
|
It is easier, faster and more powerful to use ACLs to write access policies.
|
|
Reqdeny, reqallow and reqpass should be avoided in new designs.
|
|
|
|
Example :
|
|
# allow www.* but refuse *.local
|
|
reqiallow ^Host:\ www\.
|
|
reqideny ^Host:\ .*\.local
|
|
|
|
See also: "reqdeny", "block", section 6 about HTTP header manipulation, and
|
|
section 7 about ACLs.
|
|
|
|
|
|
reqdel <search> [{if | unless} <cond>]
|
|
reqidel <search> [{if | unless} <cond>] (ignore case)
|
|
Delete all headers matching a regular expression in an HTTP request
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<search> is the regular expression applied to HTTP headers and to the
|
|
request line. This is an extended regular expression. Parenthesis
|
|
grouping is supported and no preliminary backslash is required.
|
|
Any space or known delimiter must be escaped using a backslash
|
|
('\'). The pattern applies to a full line at a time. The "reqdel"
|
|
keyword strictly matches case while "reqidel" ignores case.
|
|
|
|
<cond> is an optional matching condition built from ACLs. It makes it
|
|
possible to ignore this rule when other conditions are not met.
|
|
|
|
Any header line matching extended regular expression <search> in the request
|
|
will be completely deleted. Most common use of this is to remove unwanted
|
|
and/or dangerous headers or cookies from a request before passing it to the
|
|
next servers.
|
|
|
|
Header transformations only apply to traffic which passes through HAProxy,
|
|
and not to traffic generated by HAProxy, such as health-checks or error
|
|
responses. Keep in mind that header names are not case-sensitive.
|
|
|
|
Example :
|
|
# remove X-Forwarded-For header and SERVER cookie
|
|
reqidel ^X-Forwarded-For:.*
|
|
reqidel ^Cookie:.*SERVER=
|
|
|
|
See also: "reqadd", "reqrep", "rspdel", section 6 about HTTP header
|
|
manipulation, and section 7 about ACLs.
|
|
|
|
|
|
reqdeny <search> [{if | unless} <cond>]
|
|
reqideny <search> [{if | unless} <cond>] (ignore case)
|
|
Deny an HTTP request if a line matches a regular expression
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<search> is the regular expression applied to HTTP headers and to the
|
|
request line. This is an extended regular expression. Parenthesis
|
|
grouping is supported and no preliminary backslash is required.
|
|
Any space or known delimiter must be escaped using a backslash
|
|
('\'). The pattern applies to a full line at a time. The
|
|
"reqdeny" keyword strictly matches case while "reqideny" ignores
|
|
case.
|
|
|
|
<cond> is an optional matching condition built from ACLs. It makes it
|
|
possible to ignore this rule when other conditions are not met.
|
|
|
|
A request containing any line which matches extended regular expression
|
|
<search> will mark the request as denied, even if any later test would
|
|
result in an allow. The test applies both to the request line and to request
|
|
headers. Keep in mind that URLs in request line are case-sensitive while
|
|
header names are not.
|
|
|
|
A denied request will generate an "HTTP 403 forbidden" response once the
|
|
complete request has been parsed. This is consistent with what is practiced
|
|
using ACLs.
|
|
|
|
It is easier, faster and more powerful to use ACLs to write access policies.
|
|
Reqdeny, reqallow and reqpass should be avoided in new designs.
|
|
|
|
Example :
|
|
# refuse *.local, then allow www.*
|
|
reqideny ^Host:\ .*\.local
|
|
reqiallow ^Host:\ www\.
|
|
|
|
See also: "reqallow", "rspdeny", "block", section 6 about HTTP header
|
|
manipulation, and section 7 about ACLs.
|
|
|
|
|
|
reqpass <search> [{if | unless} <cond>]
|
|
reqipass <search> [{if | unless} <cond>] (ignore case)
|
|
Ignore any HTTP request line matching a regular expression in next rules
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<search> is the regular expression applied to HTTP headers and to the
|
|
request line. This is an extended regular expression. Parenthesis
|
|
grouping is supported and no preliminary backslash is required.
|
|
Any space or known delimiter must be escaped using a backslash
|
|
('\'). The pattern applies to a full line at a time. The
|
|
"reqpass" keyword strictly matches case while "reqipass" ignores
|
|
case.
|
|
|
|
<cond> is an optional matching condition built from ACLs. It makes it
|
|
possible to ignore this rule when other conditions are not met.
|
|
|
|
A request containing any line which matches extended regular expression
|
|
<search> will skip next rules, without assigning any deny or allow verdict.
|
|
The test applies both to the request line and to request headers. Keep in
|
|
mind that URLs in request line are case-sensitive while header names are not.
|
|
|
|
It is easier, faster and more powerful to use ACLs to write access policies.
|
|
Reqdeny, reqallow and reqpass should be avoided in new designs.
|
|
|
|
Example :
|
|
# refuse *.local, then allow www.*, but ignore "www.private.local"
|
|
reqipass ^Host:\ www.private\.local
|
|
reqideny ^Host:\ .*\.local
|
|
reqiallow ^Host:\ www\.
|
|
|
|
See also: "reqallow", "reqdeny", "block", section 6 about HTTP header
|
|
manipulation, and section 7 about ACLs.
|
|
|
|
|
|
reqrep <search> <string> [{if | unless} <cond>]
|
|
reqirep <search> <string> [{if | unless} <cond>] (ignore case)
|
|
Replace a regular expression with a string in an HTTP request line
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<search> is the regular expression applied to HTTP headers and to the
|
|
request line. This is an extended regular expression. Parenthesis
|
|
grouping is supported and no preliminary backslash is required.
|
|
Any space or known delimiter must be escaped using a backslash
|
|
('\'). The pattern applies to a full line at a time. The "reqrep"
|
|
keyword strictly matches case while "reqirep" ignores case.
|
|
|
|
<string> is the complete line to be added. Any space or known delimiter
|
|
must be escaped using a backslash ('\'). References to matched
|
|
pattern groups are possible using the common \N form, with N
|
|
being a single digit between 0 and 9. Please refer to section
|
|
6 about HTTP header manipulation for more information.
|
|
|
|
<cond> is an optional matching condition built from ACLs. It makes it
|
|
possible to ignore this rule when other conditions are not met.
|
|
|
|
Any line matching extended regular expression <search> in the request (both
|
|
the request line and header lines) will be completely replaced with <string>.
|
|
Most common use of this is to rewrite URLs or domain names in "Host" headers.
|
|
|
|
Header transformations only apply to traffic which passes through HAProxy,
|
|
and not to traffic generated by HAProxy, such as health-checks or error
|
|
responses. Note that for increased readability, it is suggested to add enough
|
|
spaces between the request and the response. Keep in mind that URLs in
|
|
request line are case-sensitive while header names are not.
|
|
|
|
Example :
|
|
# replace "/static/" with "/" at the beginning of any request path.
|
|
reqrep ^([^\ ]*)\ /static/(.*) \1\ /\2
|
|
# replace "www.mydomain.com" with "www" in the host name.
|
|
reqirep ^Host:\ www.mydomain.com Host:\ www
|
|
|
|
See also: "reqadd", "reqdel", "rsprep", section 6 about HTTP header
|
|
manipulation, and section 7 about ACLs.
|
|
|
|
|
|
reqtarpit <search> [{if | unless} <cond>]
|
|
reqitarpit <search> [{if | unless} <cond>] (ignore case)
|
|
Tarpit an HTTP request containing a line matching a regular expression
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<search> is the regular expression applied to HTTP headers and to the
|
|
request line. This is an extended regular expression. Parenthesis
|
|
grouping is supported and no preliminary backslash is required.
|
|
Any space or known delimiter must be escaped using a backslash
|
|
('\'). The pattern applies to a full line at a time. The
|
|
"reqtarpit" keyword strictly matches case while "reqitarpit"
|
|
ignores case.
|
|
|
|
<cond> is an optional matching condition built from ACLs. It makes it
|
|
possible to ignore this rule when other conditions are not met.
|
|
|
|
A request containing any line which matches extended regular expression
|
|
<search> will be tarpitted, which means that it will connect to nowhere, will
|
|
be kept open for a pre-defined time, then will return an HTTP error 500 so
|
|
that the attacker does not suspect it has been tarpitted. The status 500 will
|
|
be reported in the logs, but the completion flags will indicate "PT". The
|
|
delay is defined by "timeout tarpit", or "timeout connect" if the former is
|
|
not set.
|
|
|
|
The goal of the tarpit is to slow down robots attacking servers with
|
|
identifiable requests. Many robots limit their outgoing number of connections
|
|
and stay connected waiting for a reply which can take several minutes to
|
|
come. Depending on the environment and attack, it may be particularly
|
|
efficient at reducing the load on the network and firewalls.
|
|
|
|
Examples :
|
|
# ignore user-agents reporting any flavour of "Mozilla" or "MSIE", but
|
|
# block all others.
|
|
reqipass ^User-Agent:\.*(Mozilla|MSIE)
|
|
reqitarpit ^User-Agent:
|
|
|
|
# block bad guys
|
|
acl badguys src 10.1.0.3 172.16.13.20/28
|
|
reqitarpit . if badguys
|
|
|
|
See also: "reqallow", "reqdeny", "reqpass", section 6 about HTTP header
|
|
manipulation, and section 7 about ACLs.
|
|
|
|
|
|
retries <value>
|
|
Set the number of retries to perform on a server after a connection failure
|
|
May be used in sections: defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<value> is the number of times a connection attempt should be retried on
|
|
a server when a connection either is refused or times out. The
|
|
default value is 3.
|
|
|
|
It is important to understand that this value applies to the number of
|
|
connection attempts, not full requests. When a connection has effectively
|
|
been established to a server, there will be no more retry.
|
|
|
|
In order to avoid immediate reconnections to a server which is restarting,
|
|
a turn-around timer of 1 second is applied before a retry occurs.
|
|
|
|
When "option redispatch" is set, the last retry may be performed on another
|
|
server even if a cookie references a different server.
|
|
|
|
See also : "option redispatch"
|
|
|
|
|
|
rspadd <string> [{if | unless} <cond>]
|
|
Add a header at the end of the HTTP response
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<string> is the complete line to be added. Any space or known delimiter
|
|
must be escaped using a backslash ('\'). Please refer to section
|
|
6 about HTTP header manipulation for more information.
|
|
|
|
<cond> is an optional matching condition built from ACLs. It makes it
|
|
possible to ignore this rule when other conditions are not met.
|
|
|
|
A new line consisting in <string> followed by a line feed will be added after
|
|
the last header of an HTTP response.
|
|
|
|
Header transformations only apply to traffic which passes through HAProxy,
|
|
and not to traffic generated by HAProxy, such as health-checks or error
|
|
responses.
|
|
|
|
See also: "reqadd", section 6 about HTTP header manipulation, and section 7
|
|
about ACLs.
|
|
|
|
|
|
rspdel <search> [{if | unless} <cond>]
|
|
rspidel <search> [{if | unless} <cond>] (ignore case)
|
|
Delete all headers matching a regular expression in an HTTP response
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<search> is the regular expression applied to HTTP headers and to the
|
|
response line. This is an extended regular expression, so
|
|
parenthesis grouping is supported and no preliminary backslash
|
|
is required. Any space or known delimiter must be escaped using
|
|
a backslash ('\'). The pattern applies to a full line at a time.
|
|
The "rspdel" keyword strictly matches case while "rspidel"
|
|
ignores case.
|
|
|
|
<cond> is an optional matching condition built from ACLs. It makes it
|
|
possible to ignore this rule when other conditions are not met.
|
|
|
|
Any header line matching extended regular expression <search> in the response
|
|
will be completely deleted. Most common use of this is to remove unwanted
|
|
and/or sensible headers or cookies from a response before passing it to the
|
|
client.
|
|
|
|
Header transformations only apply to traffic which passes through HAProxy,
|
|
and not to traffic generated by HAProxy, such as health-checks or error
|
|
responses. Keep in mind that header names are not case-sensitive.
|
|
|
|
Example :
|
|
# remove the Server header from responses
|
|
reqidel ^Server:.*
|
|
|
|
See also: "rspadd", "rsprep", "reqdel", section 6 about HTTP header
|
|
manipulation, and section 7 about ACLs.
|
|
|
|
|
|
rspdeny <search> [{if | unless} <cond>]
|
|
rspideny <search> [{if | unless} <cond>] (ignore case)
|
|
Block an HTTP response if a line matches a regular expression
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<search> is the regular expression applied to HTTP headers and to the
|
|
response line. This is an extended regular expression, so
|
|
parenthesis grouping is supported and no preliminary backslash
|
|
is required. Any space or known delimiter must be escaped using
|
|
a backslash ('\'). The pattern applies to a full line at a time.
|
|
The "rspdeny" keyword strictly matches case while "rspideny"
|
|
ignores case.
|
|
|
|
<cond> is an optional matching condition built from ACLs. It makes it
|
|
possible to ignore this rule when other conditions are not met.
|
|
|
|
A response containing any line which matches extended regular expression
|
|
<search> will mark the request as denied. The test applies both to the
|
|
response line and to response headers. Keep in mind that header names are not
|
|
case-sensitive.
|
|
|
|
Main use of this keyword is to prevent sensitive information leak and to
|
|
block the response before it reaches the client. If a response is denied, it
|
|
will be replaced with an HTTP 502 error so that the client never retrieves
|
|
any sensitive data.
|
|
|
|
It is easier, faster and more powerful to use ACLs to write access policies.
|
|
Rspdeny should be avoided in new designs.
|
|
|
|
Example :
|
|
# Ensure that no content type matching ms-word will leak
|
|
rspideny ^Content-type:\.*/ms-word
|
|
|
|
See also: "reqdeny", "acl", "block", section 6 about HTTP header manipulation
|
|
and section 7 about ACLs.
|
|
|
|
|
|
rsprep <search> <string> [{if | unless} <cond>]
|
|
rspirep <search> <string> [{if | unless} <cond>] (ignore case)
|
|
Replace a regular expression with a string in an HTTP response line
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<search> is the regular expression applied to HTTP headers and to the
|
|
response line. This is an extended regular expression, so
|
|
parenthesis grouping is supported and no preliminary backslash
|
|
is required. Any space or known delimiter must be escaped using
|
|
a backslash ('\'). The pattern applies to a full line at a time.
|
|
The "rsprep" keyword strictly matches case while "rspirep"
|
|
ignores case.
|
|
|
|
<string> is the complete line to be added. Any space or known delimiter
|
|
must be escaped using a backslash ('\'). References to matched
|
|
pattern groups are possible using the common \N form, with N
|
|
being a single digit between 0 and 9. Please refer to section
|
|
6 about HTTP header manipulation for more information.
|
|
|
|
<cond> is an optional matching condition built from ACLs. It makes it
|
|
possible to ignore this rule when other conditions are not met.
|
|
|
|
Any line matching extended regular expression <search> in the response (both
|
|
the response line and header lines) will be completely replaced with
|
|
<string>. Most common use of this is to rewrite Location headers.
|
|
|
|
Header transformations only apply to traffic which passes through HAProxy,
|
|
and not to traffic generated by HAProxy, such as health-checks or error
|
|
responses. Note that for increased readability, it is suggested to add enough
|
|
spaces between the request and the response. Keep in mind that header names
|
|
are not case-sensitive.
|
|
|
|
Example :
|
|
# replace "Location: 127.0.0.1:8080" with "Location: www.mydomain.com"
|
|
rspirep ^Location:\ 127.0.0.1:8080 Location:\ www.mydomain.com
|
|
|
|
See also: "rspadd", "rspdel", "reqrep", section 6 about HTTP header
|
|
manipulation, and section 7 about ACLs.
|
|
|
|
|
|
server <name> <address>[:[port]] [param*]
|
|
Declare a server in a backend
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | no | yes | yes
|
|
Arguments :
|
|
<name> is the internal name assigned to this server. This name will
|
|
appear in logs and alerts.
|
|
|
|
<address> is the IPv4 or IPv6 address of the server. Alternatively, a
|
|
resolvable hostname is supported, but this name will be resolved
|
|
during start-up. Address "0.0.0.0" or "*" has a special meaning.
|
|
It indicates that the connection will be forwarded to the same IP
|
|
address as the one from the client connection. This is useful in
|
|
transparent proxy architectures where the client's connection is
|
|
intercepted and haproxy must forward to the original destination
|
|
address. This is more or less what the "transparent" keyword does
|
|
except that with a server it's possible to limit concurrency and
|
|
to report statistics.
|
|
|
|
<ports> is an optional port specification. If set, all connections will
|
|
be sent to this port. If unset, the same port the client
|
|
connected to will be used. The port may also be prefixed by a "+"
|
|
or a "-". In this case, the server's port will be determined by
|
|
adding this value to the client's port.
|
|
|
|
<param*> is a list of parameters for this server. The "server" keywords
|
|
accepts an important number of options and has a complete section
|
|
dedicated to it. Please refer to section 5 for more details.
|
|
|
|
Examples :
|
|
server first 10.1.1.1:1080 cookie first check inter 1000
|
|
server second 10.1.1.2:1080 cookie second check inter 1000
|
|
|
|
See also: "default-server" and section 5 about server options
|
|
|
|
|
|
source <addr>[:<port>] [usesrc { <addr2>[:<port2>] | client | clientip } ]
|
|
source <addr>[:<port>] [usesrc { <addr2>[:<port2>] | hdr_ip(<hdr>[,<occ>]) } ]
|
|
source <addr>[:<port>] [interface <name>]
|
|
Set the source address for outgoing connections
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<addr> is the IPv4 address HAProxy will bind to before connecting to a
|
|
server. This address is also used as a source for health checks.
|
|
The default value of 0.0.0.0 means that the system will select
|
|
the most appropriate address to reach its destination.
|
|
|
|
<port> is an optional port. It is normally not needed but may be useful
|
|
in some very specific contexts. The default value of zero means
|
|
the system will select a free port. Note that port ranges are not
|
|
supported in the backend. If you want to force port ranges, you
|
|
have to specify them on each "server" line.
|
|
|
|
<addr2> is the IP address to present to the server when connections are
|
|
forwarded in full transparent proxy mode. This is currently only
|
|
supported on some patched Linux kernels. When this address is
|
|
specified, clients connecting to the server will be presented
|
|
with this address, while health checks will still use the address
|
|
<addr>.
|
|
|
|
<port2> is the optional port to present to the server when connections
|
|
are forwarded in full transparent proxy mode (see <addr2> above).
|
|
The default value of zero means the system will select a free
|
|
port.
|
|
|
|
<hdr> is the name of a HTTP header in which to fetch the IP to bind to.
|
|
This is the name of a comma-separated header list which can
|
|
contain multiple IP addresses. By default, the last occurrence is
|
|
used. This is designed to work with the X-Forwarded-For header
|
|
and to automatically bind to the the client's IP address as seen
|
|
by previous proxy, typically Stunnel. In order to use another
|
|
occurrence from the last one, please see the <occ> parameter
|
|
below. When the header (or occurrence) is not found, no binding
|
|
is performed so that the proxy's default IP address is used. Also
|
|
keep in mind that the header name is case insensitive, as for any
|
|
HTTP header.
|
|
|
|
<occ> is the occurrence number of a value to be used in a multi-value
|
|
header. This is to be used in conjunction with "hdr_ip(<hdr>)",
|
|
in order to specificy which occurrence to use for the source IP
|
|
address. Positive values indicate a position from the first
|
|
occurrence, 1 being the first one. Negative values indicate
|
|
positions relative to the last one, -1 being the last one. This
|
|
is helpful for situations where an X-Forwarded-For header is set
|
|
at the entry point of an infrastructure and must be used several
|
|
proxy layers away. When this value is not specified, -1 is
|
|
assumed. Passing a zero here disables the feature.
|
|
|
|
<name> is an optional interface name to which to bind to for outgoing
|
|
traffic. On systems supporting this features (currently, only
|
|
Linux), this allows one to bind all traffic to the server to
|
|
this interface even if it is not the one the system would select
|
|
based on routing tables. This should be used with extreme care.
|
|
Note that using this option requires root privileges.
|
|
|
|
The "source" keyword is useful in complex environments where a specific
|
|
address only is allowed to connect to the servers. It may be needed when a
|
|
private address must be used through a public gateway for instance, and it is
|
|
known that the system cannot determine the adequate source address by itself.
|
|
|
|
An extension which is available on certain patched Linux kernels may be used
|
|
through the "usesrc" optional keyword. It makes it possible to connect to the
|
|
servers with an IP address which does not belong to the system itself. This
|
|
is called "full transparent proxy mode". For this to work, the destination
|
|
servers have to route their traffic back to this address through the machine
|
|
running HAProxy, and IP forwarding must generally be enabled on this machine.
|
|
|
|
In this "full transparent proxy" mode, it is possible to force a specific IP
|
|
address to be presented to the servers. This is not much used in fact. A more
|
|
common use is to tell HAProxy to present the client's IP address. For this,
|
|
there are two methods :
|
|
|
|
- present the client's IP and port addresses. This is the most transparent
|
|
mode, but it can cause problems when IP connection tracking is enabled on
|
|
the machine, because a same connection may be seen twice with different
|
|
states. However, this solution presents the huge advantage of not
|
|
limiting the system to the 64k outgoing address+port couples, because all
|
|
of the client ranges may be used.
|
|
|
|
- present only the client's IP address and select a spare port. This
|
|
solution is still quite elegant but slightly less transparent (downstream
|
|
firewalls logs will not match upstream's). It also presents the downside
|
|
of limiting the number of concurrent connections to the usual 64k ports.
|
|
However, since the upstream and downstream ports are different, local IP
|
|
connection tracking on the machine will not be upset by the reuse of the
|
|
same session.
|
|
|
|
Note that depending on the transparent proxy technology used, it may be
|
|
required to force the source address. In fact, cttproxy version 2 requires an
|
|
IP address in <addr> above, and does not support setting of "0.0.0.0" as the
|
|
IP address because it creates NAT entries which much match the exact outgoing
|
|
address. Tproxy version 4 and some other kernel patches which work in pure
|
|
forwarding mode generally will not have this limitation.
|
|
|
|
This option sets the default source for all servers in the backend. It may
|
|
also be specified in a "defaults" section. Finer source address specification
|
|
is possible at the server level using the "source" server option. Refer to
|
|
section 5 for more information.
|
|
|
|
Examples :
|
|
backend private
|
|
# Connect to the servers using our 192.168.1.200 source address
|
|
source 192.168.1.200
|
|
|
|
backend transparent_ssl1
|
|
# Connect to the SSL farm from the client's source address
|
|
source 192.168.1.200 usesrc clientip
|
|
|
|
backend transparent_ssl2
|
|
# Connect to the SSL farm from the client's source address and port
|
|
# not recommended if IP conntrack is present on the local machine.
|
|
source 192.168.1.200 usesrc client
|
|
|
|
backend transparent_ssl3
|
|
# Connect to the SSL farm from the client's source address. It
|
|
# is more conntrack-friendly.
|
|
source 192.168.1.200 usesrc clientip
|
|
|
|
backend transparent_smtp
|
|
# Connect to the SMTP farm from the client's source address/port
|
|
# with Tproxy version 4.
|
|
source 0.0.0.0 usesrc clientip
|
|
|
|
backend transparent_http
|
|
# Connect to the servers using the client's IP as seen by previous
|
|
# proxy.
|
|
source 0.0.0.0 usesrc hdr_ip(x-forwarded-for,-1)
|
|
|
|
See also : the "source" server option in section 5, the Tproxy patches for
|
|
the Linux kernel on www.balabit.com, the "bind" keyword.
|
|
|
|
|
|
srvtimeout <timeout> (deprecated)
|
|
Set the maximum inactivity time on the server side.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<timeout> is the timeout value specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
The inactivity timeout applies when the server is expected to acknowledge or
|
|
send data. In HTTP mode, this timeout is particularly important to consider
|
|
during the first phase of the server's response, when it has to send the
|
|
headers, as it directly represents the server's processing time for the
|
|
request. To find out what value to put there, it's often good to start with
|
|
what would be considered as unacceptable response times, then check the logs
|
|
to observe the response time distribution, and adjust the value accordingly.
|
|
|
|
The value is specified in milliseconds by default, but can be in any other
|
|
unit if the number is suffixed by the unit, as specified at the top of this
|
|
document. In TCP mode (and to a lesser extent, in HTTP mode), it is highly
|
|
recommended that the client timeout remains equal to the server timeout in
|
|
order to avoid complex situations to debug. Whatever the expected server
|
|
response times, it is a good practice to cover at least one or several TCP
|
|
packet losses by specifying timeouts that are slightly above multiples of 3
|
|
seconds (eg: 4 or 5 seconds minimum).
|
|
|
|
This parameter is specific to backends, but can be specified once for all in
|
|
"defaults" sections. This is in fact one of the easiest solutions not to
|
|
forget about it. An unspecified timeout results in an infinite timeout, which
|
|
is not recommended. Such a usage is accepted and works but reports a warning
|
|
during startup because it may results in accumulation of expired sessions in
|
|
the system if the system's timeouts are not configured either.
|
|
|
|
This parameter is provided for compatibility but is currently deprecated.
|
|
Please use "timeout server" instead.
|
|
|
|
See also : "timeout server", "timeout client" and "clitimeout".
|
|
|
|
|
|
stats admin { if | unless } <cond>
|
|
Enable statistics admin level if/unless a condition is matched
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | no | yes | yes
|
|
|
|
This statement enables the statistics admin level if/unless a condition is
|
|
matched.
|
|
|
|
The admin level allows to enable/disable servers from the web interface. By
|
|
default, statistics page is read-only for security reasons.
|
|
|
|
Note : Consider not using this feature in multi-process mode (nbproc > 1)
|
|
unless you know what you do : memory is not shared between the
|
|
processes, which can result in random behaviours.
|
|
|
|
Currently, the POST request is limited to the buffer size minus the reserved
|
|
buffer space, which means that if the list of servers is too long, the
|
|
request won't be processed. It is recommended to alter few servers at a
|
|
time.
|
|
|
|
Example :
|
|
# statistics admin level only for localhost
|
|
backend stats_localhost
|
|
stats enable
|
|
stats admin if LOCALHOST
|
|
|
|
Example :
|
|
# statistics admin level always enabled because of the authentication
|
|
backend stats_auth
|
|
stats enable
|
|
stats auth admin:AdMiN123
|
|
stats admin if TRUE
|
|
|
|
Example :
|
|
# statistics admin level depends on the authenticated user
|
|
userlist stats-auth
|
|
group admin users admin
|
|
user admin insecure-password AdMiN123
|
|
group readonly users haproxy
|
|
user haproxy insecure-password haproxy
|
|
|
|
backend stats_auth
|
|
stats enable
|
|
acl AUTH http_auth(stats-auth)
|
|
acl AUTH_ADMIN http_auth_group(stats-auth) admin
|
|
stats http-request auth unless AUTH
|
|
stats admin if AUTH_ADMIN
|
|
|
|
See also : "stats enable", "stats auth", "stats http-request", "nbproc",
|
|
"bind-process", section 3.4 about userlists and section 7 about
|
|
ACL usage.
|
|
|
|
|
|
stats auth <user>:<passwd>
|
|
Enable statistics with authentication and grant access to an account
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<user> is a user name to grant access to
|
|
|
|
<passwd> is the cleartext password associated to this user
|
|
|
|
This statement enables statistics with default settings, and restricts access
|
|
to declared users only. It may be repeated as many times as necessary to
|
|
allow as many users as desired. When a user tries to access the statistics
|
|
without a valid account, a "401 Forbidden" response will be returned so that
|
|
the browser asks the user to provide a valid user and password. The real
|
|
which will be returned to the browser is configurable using "stats realm".
|
|
|
|
Since the authentication method is HTTP Basic Authentication, the passwords
|
|
circulate in cleartext on the network. Thus, it was decided that the
|
|
configuration file would also use cleartext passwords to remind the users
|
|
that those ones should not be sensible and not shared with any other account.
|
|
|
|
It is also possible to reduce the scope of the proxies which appear in the
|
|
report using "stats scope".
|
|
|
|
Though this statement alone is enough to enable statistics reporting, it is
|
|
recommended to set all other settings in order to avoid relying on default
|
|
unobvious parameters.
|
|
|
|
Example :
|
|
# public access (limited to this backend only)
|
|
backend public_www
|
|
server srv1 192.168.0.1:80
|
|
stats enable
|
|
stats hide-version
|
|
stats scope .
|
|
stats uri /admin?stats
|
|
stats realm Haproxy\ Statistics
|
|
stats auth admin1:AdMiN123
|
|
stats auth admin2:AdMiN321
|
|
|
|
# internal monitoring access (unlimited)
|
|
backend private_monitoring
|
|
stats enable
|
|
stats uri /admin?stats
|
|
stats refresh 5s
|
|
|
|
See also : "stats enable", "stats realm", "stats scope", "stats uri"
|
|
|
|
|
|
stats enable
|
|
Enable statistics reporting with default settings
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
This statement enables statistics reporting with default settings defined
|
|
at build time. Unless stated otherwise, these settings are used :
|
|
- stats uri : /haproxy?stats
|
|
- stats realm : "HAProxy Statistics"
|
|
- stats auth : no authentication
|
|
- stats scope : no restriction
|
|
|
|
Though this statement alone is enough to enable statistics reporting, it is
|
|
recommended to set all other settings in order to avoid relying on default
|
|
unobvious parameters.
|
|
|
|
Example :
|
|
# public access (limited to this backend only)
|
|
backend public_www
|
|
server srv1 192.168.0.1:80
|
|
stats enable
|
|
stats hide-version
|
|
stats scope .
|
|
stats uri /admin?stats
|
|
stats realm Haproxy\ Statistics
|
|
stats auth admin1:AdMiN123
|
|
stats auth admin2:AdMiN321
|
|
|
|
# internal monitoring access (unlimited)
|
|
backend private_monitoring
|
|
stats enable
|
|
stats uri /admin?stats
|
|
stats refresh 5s
|
|
|
|
See also : "stats auth", "stats realm", "stats uri"
|
|
|
|
|
|
stats hide-version
|
|
Enable statistics and hide HAProxy version reporting
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
By default, the stats page reports some useful status information along with
|
|
the statistics. Among them is HAProxy's version. However, it is generally
|
|
considered dangerous to report precise version to anyone, as it can help them
|
|
target known weaknesses with specific attacks. The "stats hide-version"
|
|
statement removes the version from the statistics report. This is recommended
|
|
for public sites or any site with a weak login/password.
|
|
|
|
Though this statement alone is enough to enable statistics reporting, it is
|
|
recommended to set all other settings in order to avoid relying on default
|
|
unobvious parameters.
|
|
|
|
Example :
|
|
# public access (limited to this backend only)
|
|
backend public_www
|
|
server srv1 192.168.0.1:80
|
|
stats enable
|
|
stats hide-version
|
|
stats scope .
|
|
stats uri /admin?stats
|
|
stats realm Haproxy\ Statistics
|
|
stats auth admin1:AdMiN123
|
|
stats auth admin2:AdMiN321
|
|
|
|
# internal monitoring access (unlimited)
|
|
backend private_monitoring
|
|
stats enable
|
|
stats uri /admin?stats
|
|
stats refresh 5s
|
|
|
|
See also : "stats auth", "stats enable", "stats realm", "stats uri"
|
|
|
|
|
|
stats http-request { allow | deny | auth [realm <realm>] }
|
|
[ { if | unless } <condition> ]
|
|
Access control for statistics
|
|
|
|
May be used in sections: defaults | frontend | listen | backend
|
|
no | no | yes | yes
|
|
|
|
As "http-request", these set of options allow to fine control access to
|
|
statistics. Each option may be followed by if/unless and acl.
|
|
First option with matched condition (or option without condition) is final.
|
|
For "deny" a 403 error will be returned, for "allow" normal processing is
|
|
performed, for "auth" a 401/407 error code is returned so the client
|
|
should be asked to enter a username and password.
|
|
|
|
There is no fixed limit to the number of http-request statements per
|
|
instance.
|
|
|
|
See also : "http-request", section 3.4 about userlists and section 7
|
|
about ACL usage.
|
|
|
|
|
|
stats realm <realm>
|
|
Enable statistics and set authentication realm
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<realm> is the name of the HTTP Basic Authentication realm reported to
|
|
the browser. The browser uses it to display it in the pop-up
|
|
inviting the user to enter a valid username and password.
|
|
|
|
The realm is read as a single word, so any spaces in it should be escaped
|
|
using a backslash ('\').
|
|
|
|
This statement is useful only in conjunction with "stats auth" since it is
|
|
only related to authentication.
|
|
|
|
Though this statement alone is enough to enable statistics reporting, it is
|
|
recommended to set all other settings in order to avoid relying on default
|
|
unobvious parameters.
|
|
|
|
Example :
|
|
# public access (limited to this backend only)
|
|
backend public_www
|
|
server srv1 192.168.0.1:80
|
|
stats enable
|
|
stats hide-version
|
|
stats scope .
|
|
stats uri /admin?stats
|
|
stats realm Haproxy\ Statistics
|
|
stats auth admin1:AdMiN123
|
|
stats auth admin2:AdMiN321
|
|
|
|
# internal monitoring access (unlimited)
|
|
backend private_monitoring
|
|
stats enable
|
|
stats uri /admin?stats
|
|
stats refresh 5s
|
|
|
|
See also : "stats auth", "stats enable", "stats uri"
|
|
|
|
|
|
stats refresh <delay>
|
|
Enable statistics with automatic refresh
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<delay> is the suggested refresh delay, specified in seconds, which will
|
|
be returned to the browser consulting the report page. While the
|
|
browser is free to apply any delay, it will generally respect it
|
|
and refresh the page this every seconds. The refresh interval may
|
|
be specified in any other non-default time unit, by suffixing the
|
|
unit after the value, as explained at the top of this document.
|
|
|
|
This statement is useful on monitoring displays with a permanent page
|
|
reporting the load balancer's activity. When set, the HTML report page will
|
|
include a link "refresh"/"stop refresh" so that the user can select whether
|
|
he wants automatic refresh of the page or not.
|
|
|
|
Though this statement alone is enough to enable statistics reporting, it is
|
|
recommended to set all other settings in order to avoid relying on default
|
|
unobvious parameters.
|
|
|
|
Example :
|
|
# public access (limited to this backend only)
|
|
backend public_www
|
|
server srv1 192.168.0.1:80
|
|
stats enable
|
|
stats hide-version
|
|
stats scope .
|
|
stats uri /admin?stats
|
|
stats realm Haproxy\ Statistics
|
|
stats auth admin1:AdMiN123
|
|
stats auth admin2:AdMiN321
|
|
|
|
# internal monitoring access (unlimited)
|
|
backend private_monitoring
|
|
stats enable
|
|
stats uri /admin?stats
|
|
stats refresh 5s
|
|
|
|
See also : "stats auth", "stats enable", "stats realm", "stats uri"
|
|
|
|
|
|
stats scope { <name> | "." }
|
|
Enable statistics and limit access scope
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<name> is the name of a listen, frontend or backend section to be
|
|
reported. The special name "." (a single dot) designates the
|
|
section in which the statement appears.
|
|
|
|
When this statement is specified, only the sections enumerated with this
|
|
statement will appear in the report. All other ones will be hidden. This
|
|
statement may appear as many times as needed if multiple sections need to be
|
|
reported. Please note that the name checking is performed as simple string
|
|
comparisons, and that it is never checked that a give section name really
|
|
exists.
|
|
|
|
Though this statement alone is enough to enable statistics reporting, it is
|
|
recommended to set all other settings in order to avoid relying on default
|
|
unobvious parameters.
|
|
|
|
Example :
|
|
# public access (limited to this backend only)
|
|
backend public_www
|
|
server srv1 192.168.0.1:80
|
|
stats enable
|
|
stats hide-version
|
|
stats scope .
|
|
stats uri /admin?stats
|
|
stats realm Haproxy\ Statistics
|
|
stats auth admin1:AdMiN123
|
|
stats auth admin2:AdMiN321
|
|
|
|
# internal monitoring access (unlimited)
|
|
backend private_monitoring
|
|
stats enable
|
|
stats uri /admin?stats
|
|
stats refresh 5s
|
|
|
|
See also : "stats auth", "stats enable", "stats realm", "stats uri"
|
|
|
|
|
|
stats show-desc [ <desc> ]
|
|
Enable reporting of a description on the statistics page.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
|
|
<desc> is an optional description to be reported. If unspecified, the
|
|
description from global section is automatically used instead.
|
|
|
|
This statement is useful for users that offer shared services to their
|
|
customers, where node or description should be different for each customer.
|
|
|
|
Though this statement alone is enough to enable statistics reporting, it is
|
|
recommended to set all other settings in order to avoid relying on default
|
|
unobvious parameters.
|
|
|
|
Example :
|
|
# internal monitoring access (unlimited)
|
|
backend private_monitoring
|
|
stats enable
|
|
stats show-desc Master node for Europe, Asia, Africa
|
|
stats uri /admin?stats
|
|
stats refresh 5s
|
|
|
|
See also: "show-node", "stats enable", "stats uri" and "description" in
|
|
global section.
|
|
|
|
|
|
stats show-legends
|
|
Enable reporting additional informations on the statistics page :
|
|
- cap: capabilities (proxy)
|
|
- mode: one of tcp, http or health (proxy)
|
|
- id: SNMP ID (proxy, socket, server)
|
|
- IP (socket, server)
|
|
- cookie (backend, server)
|
|
|
|
Though this statement alone is enough to enable statistics reporting, it is
|
|
recommended to set all other settings in order to avoid relying on default
|
|
unobvious parameters.
|
|
|
|
See also: "stats enable", "stats uri".
|
|
|
|
|
|
stats show-node [ <name> ]
|
|
Enable reporting of a host name on the statistics page.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments:
|
|
<name> is an optional name to be reported. If unspecified, the
|
|
node name from global section is automatically used instead.
|
|
|
|
This statement is useful for users that offer shared services to their
|
|
customers, where node or description might be different on a stats page
|
|
provided for each customer.
|
|
|
|
Though this statement alone is enough to enable statistics reporting, it is
|
|
recommended to set all other settings in order to avoid relying on default
|
|
unobvious parameters.
|
|
|
|
Example:
|
|
# internal monitoring access (unlimited)
|
|
backend private_monitoring
|
|
stats enable
|
|
stats show-node Europe-1
|
|
stats uri /admin?stats
|
|
stats refresh 5s
|
|
|
|
See also: "show-desc", "stats enable", "stats uri", and "node" in global
|
|
section.
|
|
|
|
|
|
stats uri <prefix>
|
|
Enable statistics and define the URI prefix to access them
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<prefix> is the prefix of any URI which will be redirected to stats. This
|
|
prefix may contain a question mark ('?') to indicate part of a
|
|
query string.
|
|
|
|
The statistics URI is intercepted on the relayed traffic, so it appears as a
|
|
page within the normal application. It is strongly advised to ensure that the
|
|
selected URI will never appear in the application, otherwise it will never be
|
|
possible to reach it in the application.
|
|
|
|
The default URI compiled in haproxy is "/haproxy?stats", but this may be
|
|
changed at build time, so it's better to always explicitly specify it here.
|
|
It is generally a good idea to include a question mark in the URI so that
|
|
intermediate proxies refrain from caching the results. Also, since any string
|
|
beginning with the prefix will be accepted as a stats request, the question
|
|
mark helps ensuring that no valid URI will begin with the same words.
|
|
|
|
It is sometimes very convenient to use "/" as the URI prefix, and put that
|
|
statement in a "listen" instance of its own. That makes it easy to dedicate
|
|
an address or a port to statistics only.
|
|
|
|
Though this statement alone is enough to enable statistics reporting, it is
|
|
recommended to set all other settings in order to avoid relying on default
|
|
unobvious parameters.
|
|
|
|
Example :
|
|
# public access (limited to this backend only)
|
|
backend public_www
|
|
server srv1 192.168.0.1:80
|
|
stats enable
|
|
stats hide-version
|
|
stats scope .
|
|
stats uri /admin?stats
|
|
stats realm Haproxy\ Statistics
|
|
stats auth admin1:AdMiN123
|
|
stats auth admin2:AdMiN321
|
|
|
|
# internal monitoring access (unlimited)
|
|
backend private_monitoring
|
|
stats enable
|
|
stats uri /admin?stats
|
|
stats refresh 5s
|
|
|
|
See also : "stats auth", "stats enable", "stats realm"
|
|
|
|
|
|
stick match <pattern> [table <table>] [{if | unless} <cond>]
|
|
Define a request pattern matching condition to stick a user to a server
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | no | yes | yes
|
|
|
|
Arguments :
|
|
<pattern> is a pattern extraction rule as described in section 7.8. It
|
|
describes what elements of the incoming request or connection
|
|
will be analysed in the hope to find a matching entry in a
|
|
stickiness table. This rule is mandatory.
|
|
|
|
<table> is an optional stickiness table name. If unspecified, the same
|
|
backend's table is used. A stickiness table is declared using
|
|
the "stick-table" statement.
|
|
|
|
<cond> is an optional matching condition. It makes it possible to match
|
|
on a certain criterion only when other conditions are met (or
|
|
not met). For instance, it could be used to match on a source IP
|
|
address except when a request passes through a known proxy, in
|
|
which case we'd match on a header containing that IP address.
|
|
|
|
Some protocols or applications require complex stickiness rules and cannot
|
|
always simply rely on cookies nor hashing. The "stick match" statement
|
|
describes a rule to extract the stickiness criterion from an incoming request
|
|
or connection. See section 7 for a complete list of possible patterns and
|
|
transformation rules.
|
|
|
|
The table has to be declared using the "stick-table" statement. It must be of
|
|
a type compatible with the pattern. By default it is the one which is present
|
|
in the same backend. It is possible to share a table with other backends by
|
|
referencing it using the "table" keyword. If another table is referenced,
|
|
the server's ID inside the backends are used. By default, all server IDs
|
|
start at 1 in each backend, so the server ordering is enough. But in case of
|
|
doubt, it is highly recommended to force server IDs using their "id" setting.
|
|
|
|
It is possible to restrict the conditions where a "stick match" statement
|
|
will apply, using "if" or "unless" followed by a condition. See section 7 for
|
|
ACL based conditions.
|
|
|
|
There is no limit on the number of "stick match" statements. The first that
|
|
applies and matches will cause the request to be directed to the same server
|
|
as was used for the request which created the entry. That way, multiple
|
|
matches can be used as fallbacks.
|
|
|
|
The stick rules are checked after the persistence cookies, so they will not
|
|
affect stickiness if a cookie has already been used to select a server. That
|
|
way, it becomes very easy to insert cookies and match on IP addresses in
|
|
order to maintain stickiness between HTTP and HTTPS.
|
|
|
|
Note : Consider not using this feature in multi-process mode (nbproc > 1)
|
|
unless you know what you do : memory is not shared between the
|
|
processes, which can result in random behaviours.
|
|
|
|
Example :
|
|
# forward SMTP users to the same server they just used for POP in the
|
|
# last 30 minutes
|
|
backend pop
|
|
mode tcp
|
|
balance roundrobin
|
|
stick store-request src
|
|
stick-table type ip size 200k expire 30m
|
|
server s1 192.168.1.1:110
|
|
server s2 192.168.1.1:110
|
|
|
|
backend smtp
|
|
mode tcp
|
|
balance roundrobin
|
|
stick match src table pop
|
|
server s1 192.168.1.1:25
|
|
server s2 192.168.1.1:25
|
|
|
|
See also : "stick-table", "stick on", "nbproc", "bind-process" and section 7
|
|
about ACLs and pattern extraction.
|
|
|
|
|
|
stick on <pattern> [table <table>] [{if | unless} <condition>]
|
|
Define a request pattern to associate a user to a server
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | no | yes | yes
|
|
|
|
Note : This form is exactly equivalent to "stick match" followed by
|
|
"stick store-request", all with the same arguments. Please refer
|
|
to both keywords for details. It is only provided as a convenience
|
|
for writing more maintainable configurations.
|
|
|
|
Note : Consider not using this feature in multi-process mode (nbproc > 1)
|
|
unless you know what you do : memory is not shared between the
|
|
processes, which can result in random behaviours.
|
|
|
|
Examples :
|
|
# The following form ...
|
|
stick on src table pop if !localhost
|
|
|
|
# ...is strictly equivalent to this one :
|
|
stick match src table pop if !localhost
|
|
stick store-request src table pop if !localhost
|
|
|
|
|
|
# Use cookie persistence for HTTP, and stick on source address for HTTPS as
|
|
# well as HTTP without cookie. Share the same table between both accesses.
|
|
backend http
|
|
mode http
|
|
balance roundrobin
|
|
stick on src table https
|
|
cookie SRV insert indirect nocache
|
|
server s1 192.168.1.1:80 cookie s1
|
|
server s2 192.168.1.1:80 cookie s2
|
|
|
|
backend https
|
|
mode tcp
|
|
balance roundrobin
|
|
stick-table type ip size 200k expire 30m
|
|
stick on src
|
|
server s1 192.168.1.1:443
|
|
server s2 192.168.1.1:443
|
|
|
|
See also : "stick match", "stick store-request", "nbproc" and "bind-process".
|
|
|
|
|
|
stick store-request <pattern> [table <table>] [{if | unless} <condition>]
|
|
Define a request pattern used to create an entry in a stickiness table
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | no | yes | yes
|
|
|
|
Arguments :
|
|
<pattern> is a pattern extraction rule as described in section 7.8. It
|
|
describes what elements of the incoming request or connection
|
|
will be analysed, extracted and stored in the table once a
|
|
server is selected.
|
|
|
|
<table> is an optional stickiness table name. If unspecified, the same
|
|
backend's table is used. A stickiness table is declared using
|
|
the "stick-table" statement.
|
|
|
|
<cond> is an optional storage condition. It makes it possible to store
|
|
certain criteria only when some conditions are met (or not met).
|
|
For instance, it could be used to store the source IP address
|
|
except when the request passes through a known proxy, in which
|
|
case we'd store a converted form of a header containing that IP
|
|
address.
|
|
|
|
Some protocols or applications require complex stickiness rules and cannot
|
|
always simply rely on cookies nor hashing. The "stick store-request" statement
|
|
describes a rule to decide what to extract from the request and when to do
|
|
it, in order to store it into a stickiness table for further requests to
|
|
match it using the "stick match" statement. Obviously the extracted part must
|
|
make sense and have a chance to be matched in a further request. Storing a
|
|
client's IP address for instance often makes sense. Storing an ID found in a
|
|
URL parameter also makes sense. Storing a source port will almost never make
|
|
any sense because it will be randomly matched. See section 7 for a complete
|
|
list of possible patterns and transformation rules.
|
|
|
|
The table has to be declared using the "stick-table" statement. It must be of
|
|
a type compatible with the pattern. By default it is the one which is present
|
|
in the same backend. It is possible to share a table with other backends by
|
|
referencing it using the "table" keyword. If another table is referenced,
|
|
the server's ID inside the backends are used. By default, all server IDs
|
|
start at 1 in each backend, so the server ordering is enough. But in case of
|
|
doubt, it is highly recommended to force server IDs using their "id" setting.
|
|
|
|
It is possible to restrict the conditions where a "stick store-request"
|
|
statement will apply, using "if" or "unless" followed by a condition. This
|
|
condition will be evaluated while parsing the request, so any criteria can be
|
|
used. See section 7 for ACL based conditions.
|
|
|
|
There is no limit on the number of "stick store-request" statements, but
|
|
there is a limit of 8 simultaneous stores per request or response. This
|
|
makes it possible to store up to 8 criteria, all extracted from either the
|
|
request or the response, regardless of the number of rules. Only the 8 first
|
|
ones which match will be kept. Using this, it is possible to feed multiple
|
|
tables at once in the hope to increase the chance to recognize a user on
|
|
another protocol or access method.
|
|
|
|
The "store-request" rules are evaluated once the server connection has been
|
|
established, so that the table will contain the real server that processed
|
|
the request.
|
|
|
|
Note : Consider not using this feature in multi-process mode (nbproc > 1)
|
|
unless you know what you do : memory is not shared between the
|
|
processes, which can result in random behaviours.
|
|
|
|
Example :
|
|
# forward SMTP users to the same server they just used for POP in the
|
|
# last 30 minutes
|
|
backend pop
|
|
mode tcp
|
|
balance roundrobin
|
|
stick store-request src
|
|
stick-table type ip size 200k expire 30m
|
|
server s1 192.168.1.1:110
|
|
server s2 192.168.1.1:110
|
|
|
|
backend smtp
|
|
mode tcp
|
|
balance roundrobin
|
|
stick match src table pop
|
|
server s1 192.168.1.1:25
|
|
server s2 192.168.1.1:25
|
|
|
|
See also : "stick-table", "stick on", "nbproc", "bind-process" and section 7
|
|
about ACLs and pattern extraction.
|
|
|
|
|
|
stick-table type {ip | integer | string [len <length>] | binary [len <length>]}
|
|
size <size> [expire <expire>] [nopurge] [peers <peersect>]
|
|
[store <data_type>]*
|
|
Configure the stickiness table for the current backend
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
|
|
Arguments :
|
|
ip a table declared with "type ip" will only store IPv4 addresses.
|
|
This form is very compact (about 50 bytes per entry) and allows
|
|
very fast entry lookup and stores with almost no overhead. This
|
|
is mainly used to store client source IP addresses.
|
|
|
|
ipv6 a table declared with "type ipv6" will only store IPv6 addresses.
|
|
This form is very compact (about 60 bytes per entry) and allows
|
|
very fast entry lookup and stores with almost no overhead. This
|
|
is mainly used to store client source IP addresses.
|
|
|
|
integer a table declared with "type integer" will store 32bit integers
|
|
which can represent a client identifier found in a request for
|
|
instance.
|
|
|
|
string a table declared with "type string" will store substrings of up
|
|
to <len> characters. If the string provided by the pattern
|
|
extractor is larger than <len>, it will be truncated before
|
|
being stored. During matching, at most <len> characters will be
|
|
compared between the string in the table and the extracted
|
|
pattern. When not specified, the string is automatically limited
|
|
to 32 characters.
|
|
|
|
binary a table declared with "type binary" will store binary blocks
|
|
of <len> bytes. If the block provided by the pattern
|
|
extractor is larger than <len>, it will be truncated before
|
|
being stored. If the block provided by the pattern extractor
|
|
is shorter than <len>, it will be padded by 0. When not
|
|
specified, the block is automatically limited to 32 bytes.
|
|
|
|
<length> is the maximum number of characters that will be stored in a
|
|
"string" type table (See type "string" above). Or the number
|
|
of bytes of the block in "binary" type table. Be careful when
|
|
changing this parameter as memory usage will proportionally
|
|
increase.
|
|
|
|
<size> is the maximum number of entries that can fit in the table. This
|
|
value directly impacts memory usage. Count approximately
|
|
50 bytes per entry, plus the size of a string if any. The size
|
|
supports suffixes "k", "m", "g" for 2^10, 2^20 and 2^30 factors.
|
|
|
|
[nopurge] indicates that we refuse to purge older entries when the table
|
|
is full. When not specified and the table is full when haproxy
|
|
wants to store an entry in it, it will flush a few of the oldest
|
|
entries in order to release some space for the new ones. This is
|
|
most often the desired behaviour. In some specific cases, it
|
|
be desirable to refuse new entries instead of purging the older
|
|
ones. That may be the case when the amount of data to store is
|
|
far above the hardware limits and we prefer not to offer access
|
|
to new clients than to reject the ones already connected. When
|
|
using this parameter, be sure to properly set the "expire"
|
|
parameter (see below).
|
|
|
|
<peersect> is the name of the peers section to use for replication. Entries
|
|
which associate keys to server IDs are kept synchronized with
|
|
the remote peers declared in this section. All entries are also
|
|
automatically learned from the local peer (old process) during a
|
|
soft restart.
|
|
|
|
NOTE : peers can't be used in multi-process mode.
|
|
|
|
<expire> defines the maximum duration of an entry in the table since it
|
|
was last created, refreshed or matched. The expiration delay is
|
|
defined using the standard time format, similarly as the various
|
|
timeouts. The maximum duration is slightly above 24 days. See
|
|
section 2.2 for more information. If this delay is not specified,
|
|
the session won't automatically expire, but older entries will
|
|
be removed once full. Be sure not to use the "nopurge" parameter
|
|
if not expiration delay is specified.
|
|
|
|
<data_type> is used to store additional information in the stick-table. This
|
|
may be used by ACLs in order to control various criteria related
|
|
to the activity of the client matching the stick-table. For each
|
|
item specified here, the size of each entry will be inflated so
|
|
that the additional data can fit. Several data types may be
|
|
stored with an entry. Multiple data types may be specified after
|
|
the "store" keyword, as a comma-separated list. Alternatively,
|
|
it is possible to repeat the "store" keyword followed by one or
|
|
several data types. Except for the "server_id" type which is
|
|
automatically detected and enabled, all data types must be
|
|
explicitly declared to be stored. If an ACL references a data
|
|
type which is not stored, the ACL will simply not match. Some
|
|
data types require an argument which must be passed just after
|
|
the type between parenthesis. See below for the supported data
|
|
types and their arguments.
|
|
|
|
The data types that can be stored with an entry are the following :
|
|
- server_id : this is an integer which holds the numeric ID of the server a
|
|
request was assigned to. It is used by the "stick match", "stick store",
|
|
and "stick on" rules. It is automatically enabled when referenced.
|
|
|
|
- gpc0 : first General Purpose Counter. It is a positive 32-bit integer
|
|
integer which may be used for anything. Most of the time it will be used
|
|
to put a special tag on some entries, for instance to note that a
|
|
specific behaviour was detected and must be known for future matches.
|
|
|
|
- conn_cnt : Connection Count. It is a positive 32-bit integer which counts
|
|
the absolute number of connections received from clients which matched
|
|
this entry. It does not mean the connections were accepted, just that
|
|
they were received.
|
|
|
|
- conn_cur : Current Connections. It is a positive 32-bit integer which
|
|
stores the concurrent connection counts for the entry. It is incremented
|
|
once an incoming connection matches the entry, and decremented once the
|
|
connection leaves. That way it is possible to know at any time the exact
|
|
number of concurrent connections for an entry.
|
|
|
|
- conn_rate(<period>) : frequency counter (takes 12 bytes). It takes an
|
|
integer parameter <period> which indicates in milliseconds the length
|
|
of the period over which the average is measured. It reports the average
|
|
incoming connection rate over that period, in connections per period. The
|
|
result is an integer which can be matched using ACLs.
|
|
|
|
- sess_cnt : Session Count. It is a positive 32-bit integer which counts
|
|
the absolute number of sessions received from clients which matched this
|
|
entry. A session is a connection that was accepted by the layer 4 rules.
|
|
|
|
- sess_rate(<period>) : frequency counter (takes 12 bytes). It takes an
|
|
integer parameter <period> which indicates in milliseconds the length
|
|
of the period over which the average is measured. It reports the average
|
|
incoming session rate over that period, in sessions per period. The
|
|
result is an integer which can be matched using ACLs.
|
|
|
|
- http_req_cnt : HTTP request Count. It is a positive 32-bit integer which
|
|
counts the absolute number of HTTP requests received from clients which
|
|
matched this entry. It does not matter whether they are valid requests or
|
|
not. Note that this is different from sessions when keep-alive is used on
|
|
the client side.
|
|
|
|
- http_req_rate(<period>) : frequency counter (takes 12 bytes). It takes an
|
|
integer parameter <period> which indicates in milliseconds the length
|
|
of the period over which the average is measured. It reports the average
|
|
HTTP request rate over that period, in requests per period. The result is
|
|
an integer which can be matched using ACLs. It does not matter whether
|
|
they are valid requests or not. Note that this is different from sessions
|
|
when keep-alive is used on the client side.
|
|
|
|
- http_err_cnt : HTTP Error Count. It is a positive 32-bit integer which
|
|
counts the absolute number of HTTP requests errors induced by clients
|
|
which matched this entry. Errors are counted on invalid and truncated
|
|
requests, as well as on denied or tarpitted requests, and on failed
|
|
authentications. If the server responds with 4xx, then the request is
|
|
also counted as an error since it's an error triggered by the client
|
|
(eg: vulnerability scan).
|
|
|
|
- http_err_rate(<period>) : frequency counter (takes 12 bytes). It takes an
|
|
integer parameter <period> which indicates in milliseconds the length
|
|
of the period over which the average is measured. It reports the average
|
|
HTTP request error rate over that period, in requests per period (see
|
|
http_err_cnt above for what is accounted as an error). The result is an
|
|
integer which can be matched using ACLs.
|
|
|
|
- bytes_in_cnt : client to server byte count. It is a positive 64-bit
|
|
integer which counts the cumulated amount of bytes received from clients
|
|
which matched this entry. Headers are included in the count. This may be
|
|
used to limit abuse of upload features on photo or video servers.
|
|
|
|
- bytes_in_rate(<period>) : frequency counter (takes 12 bytes). It takes an
|
|
integer parameter <period> which indicates in milliseconds the length
|
|
of the period over which the average is measured. It reports the average
|
|
incoming bytes rate over that period, in bytes per period. It may be used
|
|
to detect users which upload too much and too fast. Warning: with large
|
|
uploads, it is possible that the amount of uploaded data will be counted
|
|
once upon termination, thus causing spikes in the average transfer speed
|
|
instead of having a smooth one. This may partially be smoothed with
|
|
"option contstats" though this is not perfect yet. Use of byte_in_cnt is
|
|
recommended for better fairness.
|
|
|
|
- bytes_out_cnt : server to client byte count. It is a positive 64-bit
|
|
integer which counts the cumulated amount of bytes sent to clients which
|
|
matched this entry. Headers are included in the count. This may be used
|
|
to limit abuse of bots sucking the whole site.
|
|
|
|
- bytes_out_rate(<period>) : frequency counter (takes 12 bytes). It takes
|
|
an integer parameter <period> which indicates in milliseconds the length
|
|
of the period over which the average is measured. It reports the average
|
|
outgoing bytes rate over that period, in bytes per period. It may be used
|
|
to detect users which download too much and too fast. Warning: with large
|
|
transfers, it is possible that the amount of transferred data will be
|
|
counted once upon termination, thus causing spikes in the average
|
|
transfer speed instead of having a smooth one. This may partially be
|
|
smoothed with "option contstats" though this is not perfect yet. Use of
|
|
byte_out_cnt is recommended for better fairness.
|
|
|
|
There is only one stick-table per proxy. At the moment of writing this doc,
|
|
it does not seem useful to have multiple tables per proxy. If this happens
|
|
to be required, simply create a dummy backend with a stick-table in it and
|
|
reference it.
|
|
|
|
It is important to understand that stickiness based on learning information
|
|
has some limitations, including the fact that all learned associations are
|
|
lost upon restart. In general it can be good as a complement but not always
|
|
as an exclusive stickiness.
|
|
|
|
Last, memory requirements may be important when storing many data types.
|
|
Indeed, storing all indicators above at once in each entry requires 116 bytes
|
|
per entry, or 116 MB for a 1-million entries table. This is definitely not
|
|
something that can be ignored.
|
|
|
|
Example:
|
|
# Keep track of counters of up to 1 million IP addresses over 5 minutes
|
|
# and store a general purpose counter and the average connection rate
|
|
# computed over a sliding window of 30 seconds.
|
|
stick-table type ip size 1m expire 5m store gpc0,conn_rate(30s)
|
|
|
|
See also : "stick match", "stick on", "stick store-request", section 2.2
|
|
about time format and section 7 about ACLs.
|
|
|
|
|
|
stick store-response <pattern> [table <table>] [{if | unless} <condition>]
|
|
Define a request pattern used to create an entry in a stickiness table
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | no | yes | yes
|
|
|
|
Arguments :
|
|
<pattern> is a pattern extraction rule as described in section 7.8. It
|
|
describes what elements of the response or connection will
|
|
be analysed, extracted and stored in the table once a
|
|
server is selected.
|
|
|
|
<table> is an optional stickiness table name. If unspecified, the same
|
|
backend's table is used. A stickiness table is declared using
|
|
the "stick-table" statement.
|
|
|
|
<cond> is an optional storage condition. It makes it possible to store
|
|
certain criteria only when some conditions are met (or not met).
|
|
For instance, it could be used to store the SSL session ID only
|
|
when the response is a SSL server hello.
|
|
|
|
Some protocols or applications require complex stickiness rules and cannot
|
|
always simply rely on cookies nor hashing. The "stick store-response"
|
|
statement describes a rule to decide what to extract from the response and
|
|
when to do it, in order to store it into a stickiness table for further
|
|
requests to match it using the "stick match" statement. Obviously the
|
|
extracted part must make sense and have a chance to be matched in a further
|
|
request. Storing an ID found in a header of a response makes sense.
|
|
See section 7 for a complete list of possible patterns and transformation
|
|
rules.
|
|
|
|
The table has to be declared using the "stick-table" statement. It must be of
|
|
a type compatible with the pattern. By default it is the one which is present
|
|
in the same backend. It is possible to share a table with other backends by
|
|
referencing it using the "table" keyword. If another table is referenced,
|
|
the server's ID inside the backends are used. By default, all server IDs
|
|
start at 1 in each backend, so the server ordering is enough. But in case of
|
|
doubt, it is highly recommended to force server IDs using their "id" setting.
|
|
|
|
It is possible to restrict the conditions where a "stick store-response"
|
|
statement will apply, using "if" or "unless" followed by a condition. This
|
|
condition will be evaluated while parsing the response, so any criteria can
|
|
be used. See section 7 for ACL based conditions.
|
|
|
|
There is no limit on the number of "stick store-response" statements, but
|
|
there is a limit of 8 simultaneous stores per request or response. This
|
|
makes it possible to store up to 8 criteria, all extracted from either the
|
|
request or the response, regardless of the number of rules. Only the 8 first
|
|
ones which match will be kept. Using this, it is possible to feed multiple
|
|
tables at once in the hope to increase the chance to recognize a user on
|
|
another protocol or access method.
|
|
|
|
The table will contain the real server that processed the request.
|
|
|
|
Example :
|
|
# Learn SSL session ID from both request and response and create affinity.
|
|
backend https
|
|
mode tcp
|
|
balance roundrobin
|
|
# maximum SSL session ID length is 32 bytes.
|
|
stick-table type binary len 32 size 30k expire 30m
|
|
|
|
acl clienthello req_ssl_hello_type 1
|
|
acl serverhello rep_ssl_hello_type 2
|
|
|
|
# use tcp content accepts to detects ssl client and server hello.
|
|
tcp-request inspect-delay 5s
|
|
tcp-request content accept if clienthello
|
|
|
|
# no timeout on response inspect delay by default.
|
|
tcp-response content accept if serverhello
|
|
|
|
# SSL session ID (SSLID) may be present on a client or server hello.
|
|
# Its length is coded on 1 byte at offset 43 and its value starts
|
|
# at offset 44.
|
|
|
|
# Match and learn on request if client hello.
|
|
stick on payload_lv(43,1) if clienthello
|
|
|
|
# Learn on response if server hello.
|
|
stick store-response payload_lv(43,1) if serverhello
|
|
|
|
server s1 192.168.1.1:443
|
|
server s2 192.168.1.1:443
|
|
|
|
See also : "stick-table", "stick on", and section 7 about ACLs and pattern
|
|
extraction.
|
|
|
|
|
|
tcp-request connection <action> [{if | unless} <condition>]
|
|
Perform an action on an incoming connection depending on a layer 4 condition
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | no
|
|
Arguments :
|
|
<action> defines the action to perform if the condition applies. Valid
|
|
actions include : "accept", "reject", "track-sc1", "track-sc2".
|
|
See below for more details.
|
|
|
|
<condition> is a standard layer4-only ACL-based condition (see section 7).
|
|
|
|
Immediately after acceptance of a new incoming connection, it is possible to
|
|
evaluate some conditions to decide whether this connection must be accepted
|
|
or dropped or have its counters tracked. Those conditions cannot make use of
|
|
any data contents because the connection has not been read from yet, and the
|
|
buffers are not yet allocated. This is used to selectively and very quickly
|
|
accept or drop connections from various sources with a very low overhead. If
|
|
some contents need to be inspected in order to take the decision, the
|
|
"tcp-request content" statements must be used instead.
|
|
|
|
The "tcp-request connection" rules are evaluated in their exact declaration
|
|
order. If no rule matches or if there is no rule, the default action is to
|
|
accept the incoming connection. There is no specific limit to the number of
|
|
rules which may be inserted.
|
|
|
|
Three types of actions are supported :
|
|
- accept :
|
|
accepts the connection if the condition is true (when used with "if")
|
|
or false (when used with "unless"). The first such rule executed ends
|
|
the rules evaluation.
|
|
|
|
- reject :
|
|
rejects the connection if the condition is true (when used with "if")
|
|
or false (when used with "unless"). The first such rule executed ends
|
|
the rules evaluation. Rejected connections do not even become a
|
|
session, which is why they are accounted separately for in the stats,
|
|
as "denied connections". They are not considered for the session
|
|
rate-limit and are not logged either. The reason is that these rules
|
|
should only be used to filter extremely high connection rates such as
|
|
the ones encountered during a massive DDoS attack. Under these extreme
|
|
conditions, the simple action of logging each event would make the
|
|
system collapse and would considerably lower the filtering capacity. If
|
|
logging is absolutely desired, then "tcp-request content" rules should
|
|
be used instead.
|
|
|
|
- { track-sc1 | track-sc2 } <key> [table <table>] :
|
|
enables tracking of sticky counters from current connection. These
|
|
rules do not stop evaluation and do not change default action. Two sets
|
|
of counters may be simultaneously tracked by the same connection. The
|
|
first "track-sc1" rule executed enables tracking of the counters of the
|
|
specified table as the first set. The first "track-sc2" rule executed
|
|
enables tracking of the counters of the specified table as the second
|
|
set. It is a recommended practice to use the first set of counters for
|
|
the per-frontend counters and the second set for the per-backend ones.
|
|
|
|
These actions take one or two arguments :
|
|
<key> is mandatory, and defines the criterion the tracking key will
|
|
be derived from. At the moment, only "src" is supported. With
|
|
it, the key will be the connection's source IPv4 address.
|
|
|
|
<table> is an optional table to be used instead of the default one,
|
|
which is the stick-table declared in the current proxy. All
|
|
the counters for the matches and updates for the key will
|
|
then be performed in that table until the session ends.
|
|
|
|
Once a "track-sc*" rule is executed, the key is looked up in the table
|
|
and if it is not found, an entry is allocated for it. Then a pointer to
|
|
that entry is kept during all the session's life, and this entry's
|
|
counters are updated as often as possible, every time the session's
|
|
counters are updated, and also systematically when the session ends.
|
|
If the entry tracks concurrent connection counters, one connection is
|
|
counted for as long as the entry is tracked, and the entry will not
|
|
expire during that time. Tracking counters also provides a performance
|
|
advantage over just checking the keys, because only one table lookup is
|
|
performed for all ACL checks that make use of it.
|
|
|
|
Note that the "if/unless" condition is optional. If no condition is set on
|
|
the action, it is simply performed unconditionally. That can be useful for
|
|
"track-sc*" actions as well as for changing the default action to a reject.
|
|
|
|
Example: accept all connections from white-listed hosts, reject too fast
|
|
connection without counting them, and track accepted connections.
|
|
This results in connection rate being capped from abusive sources.
|
|
|
|
tcp-request connection accept if { src -f /etc/haproxy/whitelist.lst }
|
|
tcp-request connection reject if { src_conn_rate gt 10 }
|
|
tcp-request connection track-sc1 src
|
|
|
|
Example: accept all connections from white-listed hosts, count all other
|
|
connections and reject too fast ones. This results in abusive ones
|
|
being blocked as long as they don't slow down.
|
|
|
|
tcp-request connection accept if { src -f /etc/haproxy/whitelist.lst }
|
|
tcp-request connection track-sc1 src
|
|
tcp-request connection reject if { sc1_conn_rate gt 10 }
|
|
|
|
See section 7 about ACL usage.
|
|
|
|
See also : "tcp-request content", "stick-table"
|
|
|
|
|
|
tcp-request content <action> [{if | unless} <condition>]
|
|
Perform an action on a new session depending on a layer 4-7 condition
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<action> defines the action to perform if the condition applies. Valid
|
|
actions include : "accept", "reject", "track-sc1", "track-sc2".
|
|
See "tcp-request connection" above for their signification.
|
|
|
|
<condition> is a standard layer 4-7 ACL-based condition (see section 7).
|
|
|
|
A request's contents can be analysed at an early stage of request processing
|
|
called "TCP content inspection". During this stage, ACL-based rules are
|
|
evaluated every time the request contents are updated, until either an
|
|
"accept" or a "reject" rule matches, or the TCP request inspection delay
|
|
expires with no matching rule.
|
|
|
|
The first difference between these rules and "tcp-request connection" rules
|
|
is that "tcp-request content" rules can make use of contents to take a
|
|
decision. Most often, these decisions will consider a protocol recognition or
|
|
validity. The second difference is that content-based rules can be used in
|
|
both frontends and backends. In frontends, they will be evaluated upon new
|
|
connections. In backends, they will be evaluated once a session is assigned
|
|
a backend. This means that a single frontend connection may be evaluated
|
|
several times by one or multiple backends when a session gets reassigned
|
|
(for instance after a client-side HTTP keep-alive request).
|
|
|
|
Content-based rules are evaluated in their exact declaration order. If no
|
|
rule matches or if there is no rule, the default action is to accept the
|
|
contents. There is no specific limit to the number of rules which may be
|
|
inserted.
|
|
|
|
Three types of actions are supported :
|
|
- accept :
|
|
- reject :
|
|
- { track-sc1 | track-sc2 } <key> [table <table>]
|
|
|
|
They have the same meaning as their counter-parts in "tcp-request connection"
|
|
so please refer to that section for a complete description.
|
|
|
|
Also, it is worth noting that if sticky counters are tracked from a rule
|
|
defined in a backend, this tracking will automatically end when the session
|
|
releases the backend. That allows per-backend counter tracking even in case
|
|
of HTTP keep-alive requests when the backend changes. While there is nothing
|
|
mandatory about it, it is recommended to use the track-sc1 pointer to track
|
|
per-frontend counters and track-sc2 to track per-backend counters.
|
|
|
|
Note that the "if/unless" condition is optional. If no condition is set on
|
|
the action, it is simply performed unconditionally. That can be useful for
|
|
"track-sc*" actions as well as for changing the default action to a reject.
|
|
|
|
It is perfectly possible to match layer 7 contents with "tcp-request content"
|
|
rules, but then it is important to ensure that a full request has been
|
|
buffered, otherwise no contents will match. In order to achieve this, the
|
|
best solution involves detecting the HTTP protocol during the inspection
|
|
period.
|
|
|
|
Example:
|
|
# Accept HTTP requests containing a Host header saying "example.com"
|
|
# and reject everything else.
|
|
acl is_host_com hdr(Host) -i example.com
|
|
tcp-request inspect-delay 30s
|
|
tcp-request content accept if HTTP is_host_com
|
|
tcp-request content reject
|
|
|
|
Example:
|
|
# reject SMTP connection if client speaks first
|
|
tcp-request inspect-delay 30s
|
|
acl content_present req_len gt 0
|
|
tcp-request content reject if content_present
|
|
|
|
# Forward HTTPS connection only if client speaks
|
|
tcp-request inspect-delay 30s
|
|
acl content_present req_len gt 0
|
|
tcp-request content accept if content_present
|
|
tcp-request content reject
|
|
|
|
Example: track per-frontend and per-backend counters, block abusers at the
|
|
frontend when the backend detects abuse.
|
|
|
|
frontend http
|
|
# Use General Purpose Couter 0 in SC1 as a global abuse counter
|
|
# protecting all our sites
|
|
stick-table type ip size 1m expire 5m store gpc0
|
|
tcp-request connection track-sc1 src
|
|
tcp-request connection reject if { sc1_get_gpc0 gt 0 }
|
|
...
|
|
use_backend http_dynamic if { path_end .php }
|
|
|
|
backend http_dynamic
|
|
# if a source makes too fast requests to this dynamic site (tracked
|
|
# by SC2), block it globally in the frontend.
|
|
stick-table type ip size 1m expire 5m store http_req_rate(10s)
|
|
acl click_too_fast sc2_http_req_rate gt 10
|
|
acl mark_as_abuser sc1_inc_gpc0
|
|
tcp-request content track-sc2 src
|
|
tcp-request content reject if click_too_fast mark_as_abuser
|
|
|
|
See section 7 about ACL usage.
|
|
|
|
See also : "tcp-request connection", "tcp-request inspect-delay"
|
|
|
|
|
|
tcp-request inspect-delay <timeout>
|
|
Set the maximum allowed time to wait for data during content inspection
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | yes
|
|
Arguments :
|
|
<timeout> is the timeout value specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
People using haproxy primarily as a TCP relay are often worried about the
|
|
risk of passing any type of protocol to a server without any analysis. In
|
|
order to be able to analyze the request contents, we must first withhold
|
|
the data then analyze them. This statement simply enables withholding of
|
|
data for at most the specified amount of time.
|
|
|
|
TCP content inspection applies very early when a connection reaches a
|
|
frontend, then very early when the connection is forwarded to a backend. This
|
|
means that a connection may experience a first delay in the frontend and a
|
|
second delay in the backend if both have tcp-request rules.
|
|
|
|
Note that when performing content inspection, haproxy will evaluate the whole
|
|
rules for every new chunk which gets in, taking into account the fact that
|
|
those data are partial. If no rule matches before the aforementioned delay,
|
|
a last check is performed upon expiration, this time considering that the
|
|
contents are definitive. If no delay is set, haproxy will not wait at all
|
|
and will immediately apply a verdict based on the available information.
|
|
Obviously this is unlikely to be very useful and might even be racy, so such
|
|
setups are not recommended.
|
|
|
|
As soon as a rule matches, the request is released and continues as usual. If
|
|
the timeout is reached and no rule matches, the default policy will be to let
|
|
it pass through unaffected.
|
|
|
|
For most protocols, it is enough to set it to a few seconds, as most clients
|
|
send the full request immediately upon connection. Add 3 or more seconds to
|
|
cover TCP retransmits but that's all. For some protocols, it may make sense
|
|
to use large values, for instance to ensure that the client never talks
|
|
before the server (eg: SMTP), or to wait for a client to talk before passing
|
|
data to the server (eg: SSL). Note that the client timeout must cover at
|
|
least the inspection delay, otherwise it will expire first. If the client
|
|
closes the connection or if the buffer is full, the delay immediately expires
|
|
since the contents will not be able to change anymore.
|
|
|
|
See also : "tcp-request content accept", "tcp-request content reject",
|
|
"timeout client".
|
|
|
|
|
|
tcp-response content <action> [{if | unless} <condition>]
|
|
Perform an action on a session response depending on a layer 4-7 condition
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | no | yes | yes
|
|
Arguments :
|
|
<action> defines the action to perform if the condition applies. Valid
|
|
actions include : "accept", "reject".
|
|
See "tcp-request connection" above for their signification.
|
|
|
|
<condition> is a standard layer 4-7 ACL-based condition (see section 7).
|
|
|
|
Response contents can be analysed at an early stage of response processing
|
|
called "TCP content inspection". During this stage, ACL-based rules are
|
|
evaluated every time the response contents are updated, until either an
|
|
"accept" or a "reject" rule matches, or a TCP response inspection delay is
|
|
set and expires with no matching rule.
|
|
|
|
Most often, these decisions will consider a protocol recognition or validity.
|
|
|
|
Content-based rules are evaluated in their exact declaration order. If no
|
|
rule matches or if there is no rule, the default action is to accept the
|
|
contents. There is no specific limit to the number of rules which may be
|
|
inserted.
|
|
|
|
Two types of actions are supported :
|
|
- accept :
|
|
accepts the response if the condition is true (when used with "if")
|
|
or false (when used with "unless"). The first such rule executed ends
|
|
the rules evaluation.
|
|
|
|
- reject :
|
|
rejects the response if the condition is true (when used with "if")
|
|
or false (when used with "unless"). The first such rule executed ends
|
|
the rules evaluation. Rejected session are immediatly closed.
|
|
|
|
Note that the "if/unless" condition is optional. If no condition is set on
|
|
the action, it is simply performed unconditionally. That can be useful for
|
|
for changing the default action to a reject.
|
|
|
|
It is perfectly possible to match layer 7 contents with "tcp-reponse content"
|
|
rules, but then it is important to ensure that a full response has been
|
|
buffered, otherwise no contents will match. In order to achieve this, the
|
|
best solution involves detecting the HTTP protocol during the inspection
|
|
period.
|
|
|
|
See section 7 about ACL usage.
|
|
|
|
See also : "tcp-request content", "tcp-response inspect-delay"
|
|
|
|
|
|
tcp-response inspect-delay <timeout>
|
|
Set the maximum allowed time to wait for a response during content inspection
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | no | yes | yes
|
|
Arguments :
|
|
<timeout> is the timeout value specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
See also : "tcp-response content", "tcp-request inspect-delay".
|
|
|
|
|
|
timeout check <timeout>
|
|
Set additional check timeout, but only after a connection has been already
|
|
established.
|
|
|
|
May be used in sections: defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments:
|
|
<timeout> is the timeout value specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
If set, haproxy uses min("timeout connect", "inter") as a connect timeout
|
|
for check and "timeout check" as an additional read timeout. The "min" is
|
|
used so that people running with *very* long "timeout connect" (eg. those
|
|
who needed this due to the queue or tarpit) do not slow down their checks.
|
|
(Please also note that there is no valid reason to have such long connect
|
|
timeouts, because "timeout queue" and "timeout tarpit" can always be used to
|
|
avoid that).
|
|
|
|
If "timeout check" is not set haproxy uses "inter" for complete check
|
|
timeout (connect + read) exactly like all <1.3.15 version.
|
|
|
|
In most cases check request is much simpler and faster to handle than normal
|
|
requests and people may want to kick out laggy servers so this timeout should
|
|
be smaller than "timeout server".
|
|
|
|
This parameter is specific to backends, but can be specified once for all in
|
|
"defaults" sections. This is in fact one of the easiest solutions not to
|
|
forget about it.
|
|
|
|
See also: "timeout connect", "timeout queue", "timeout server",
|
|
"timeout tarpit".
|
|
|
|
|
|
timeout client <timeout>
|
|
timeout clitimeout <timeout> (deprecated)
|
|
Set the maximum inactivity time on the client side.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | no
|
|
Arguments :
|
|
<timeout> is the timeout value specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
The inactivity timeout applies when the client is expected to acknowledge or
|
|
send data. In HTTP mode, this timeout is particularly important to consider
|
|
during the first phase, when the client sends the request, and during the
|
|
response while it is reading data sent by the server. The value is specified
|
|
in milliseconds by default, but can be in any other unit if the number is
|
|
suffixed by the unit, as specified at the top of this document. In TCP mode
|
|
(and to a lesser extent, in HTTP mode), it is highly recommended that the
|
|
client timeout remains equal to the server timeout in order to avoid complex
|
|
situations to debug. It is a good practice to cover one or several TCP packet
|
|
losses by specifying timeouts that are slightly above multiples of 3 seconds
|
|
(eg: 4 or 5 seconds).
|
|
|
|
This parameter is specific to frontends, but can be specified once for all in
|
|
"defaults" sections. This is in fact one of the easiest solutions not to
|
|
forget about it. An unspecified timeout results in an infinite timeout, which
|
|
is not recommended. Such a usage is accepted and works but reports a warning
|
|
during startup because it may results in accumulation of expired sessions in
|
|
the system if the system's timeouts are not configured either.
|
|
|
|
This parameter replaces the old, deprecated "clitimeout". It is recommended
|
|
to use it to write new configurations. The form "timeout clitimeout" is
|
|
provided only by backwards compatibility but its use is strongly discouraged.
|
|
|
|
See also : "clitimeout", "timeout server".
|
|
|
|
|
|
timeout connect <timeout>
|
|
timeout contimeout <timeout> (deprecated)
|
|
Set the maximum time to wait for a connection attempt to a server to succeed.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<timeout> is the timeout value specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
If the server is located on the same LAN as haproxy, the connection should be
|
|
immediate (less than a few milliseconds). Anyway, it is a good practice to
|
|
cover one or several TCP packet losses by specifying timeouts that are
|
|
slightly above multiples of 3 seconds (eg: 4 or 5 seconds). By default, the
|
|
connect timeout also presets both queue and tarpit timeouts to the same value
|
|
if these have not been specified.
|
|
|
|
This parameter is specific to backends, but can be specified once for all in
|
|
"defaults" sections. This is in fact one of the easiest solutions not to
|
|
forget about it. An unspecified timeout results in an infinite timeout, which
|
|
is not recommended. Such a usage is accepted and works but reports a warning
|
|
during startup because it may results in accumulation of failed sessions in
|
|
the system if the system's timeouts are not configured either.
|
|
|
|
This parameter replaces the old, deprecated "contimeout". It is recommended
|
|
to use it to write new configurations. The form "timeout contimeout" is
|
|
provided only by backwards compatibility but its use is strongly discouraged.
|
|
|
|
See also: "timeout check", "timeout queue", "timeout server", "contimeout",
|
|
"timeout tarpit".
|
|
|
|
|
|
timeout http-keep-alive <timeout>
|
|
Set the maximum allowed time to wait for a new HTTP request to appear
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
<timeout> is the timeout value specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
By default, the time to wait for a new request in case of keep-alive is set
|
|
by "timeout http-request". However this is not always convenient because some
|
|
people want very short keep-alive timeouts in order to release connections
|
|
faster, and others prefer to have larger ones but still have short timeouts
|
|
once the request has started to present itself.
|
|
|
|
The "http-keep-alive" timeout covers these needs. It will define how long to
|
|
wait for a new HTTP request to start coming after a response was sent. Once
|
|
the first byte of request has been seen, the "http-request" timeout is used
|
|
to wait for the complete request to come. Note that empty lines prior to a
|
|
new request do not refresh the timeout and are not counted as a new request.
|
|
|
|
There is also another difference between the two timeouts : when a connection
|
|
expires during timeout http-keep-alive, no error is returned, the connection
|
|
just closes. If the connection expires in "http-request" while waiting for a
|
|
connection to complete, a HTTP 408 error is returned.
|
|
|
|
In general it is optimal to set this value to a few tens to hundreds of
|
|
milliseconds, to allow users to fetch all objects of a page at once but
|
|
without waiting for further clicks. Also, if set to a very small value (eg:
|
|
1 millisecond) it will probably only accept pipelined requests but not the
|
|
non-pipelined ones. It may be a nice trade-off for very large sites running
|
|
with tens to hundreds of thousands of clients.
|
|
|
|
If this parameter is not set, the "http-request" timeout applies, and if both
|
|
are not set, "timeout client" still applies at the lower level. It should be
|
|
set in the frontend to take effect, unless the frontend is in TCP mode, in
|
|
which case the HTTP backend's timeout will be used.
|
|
|
|
See also : "timeout http-request", "timeout client".
|
|
|
|
|
|
timeout http-request <timeout>
|
|
Set the maximum allowed time to wait for a complete HTTP request
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
<timeout> is the timeout value specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
In order to offer DoS protection, it may be required to lower the maximum
|
|
accepted time to receive a complete HTTP request without affecting the client
|
|
timeout. This helps protecting against established connections on which
|
|
nothing is sent. The client timeout cannot offer a good protection against
|
|
this abuse because it is an inactivity timeout, which means that if the
|
|
attacker sends one character every now and then, the timeout will not
|
|
trigger. With the HTTP request timeout, no matter what speed the client
|
|
types, the request will be aborted if it does not complete in time.
|
|
|
|
Note that this timeout only applies to the header part of the request, and
|
|
not to any data. As soon as the empty line is received, this timeout is not
|
|
used anymore. It is used again on keep-alive connections to wait for a second
|
|
request if "timeout http-keep-alive" is not set.
|
|
|
|
Generally it is enough to set it to a few seconds, as most clients send the
|
|
full request immediately upon connection. Add 3 or more seconds to cover TCP
|
|
retransmits but that's all. Setting it to very low values (eg: 50 ms) will
|
|
generally work on local networks as long as there are no packet losses. This
|
|
will prevent people from sending bare HTTP requests using telnet.
|
|
|
|
If this parameter is not set, the client timeout still applies between each
|
|
chunk of the incoming request. It should be set in the frontend to take
|
|
effect, unless the frontend is in TCP mode, in which case the HTTP backend's
|
|
timeout will be used.
|
|
|
|
See also : "timeout http-keep-alive", "timeout client".
|
|
|
|
|
|
timeout queue <timeout>
|
|
Set the maximum time to wait in the queue for a connection slot to be free
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<timeout> is the timeout value specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
When a server's maxconn is reached, connections are left pending in a queue
|
|
which may be server-specific or global to the backend. In order not to wait
|
|
indefinitely, a timeout is applied to requests pending in the queue. If the
|
|
timeout is reached, it is considered that the request will almost never be
|
|
served, so it is dropped and a 503 error is returned to the client.
|
|
|
|
The "timeout queue" statement allows to fix the maximum time for a request to
|
|
be left pending in a queue. If unspecified, the same value as the backend's
|
|
connection timeout ("timeout connect") is used, for backwards compatibility
|
|
with older versions with no "timeout queue" parameter.
|
|
|
|
See also : "timeout connect", "contimeout".
|
|
|
|
|
|
timeout server <timeout>
|
|
timeout srvtimeout <timeout> (deprecated)
|
|
Set the maximum inactivity time on the server side.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments :
|
|
<timeout> is the timeout value specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
The inactivity timeout applies when the server is expected to acknowledge or
|
|
send data. In HTTP mode, this timeout is particularly important to consider
|
|
during the first phase of the server's response, when it has to send the
|
|
headers, as it directly represents the server's processing time for the
|
|
request. To find out what value to put there, it's often good to start with
|
|
what would be considered as unacceptable response times, then check the logs
|
|
to observe the response time distribution, and adjust the value accordingly.
|
|
|
|
The value is specified in milliseconds by default, but can be in any other
|
|
unit if the number is suffixed by the unit, as specified at the top of this
|
|
document. In TCP mode (and to a lesser extent, in HTTP mode), it is highly
|
|
recommended that the client timeout remains equal to the server timeout in
|
|
order to avoid complex situations to debug. Whatever the expected server
|
|
response times, it is a good practice to cover at least one or several TCP
|
|
packet losses by specifying timeouts that are slightly above multiples of 3
|
|
seconds (eg: 4 or 5 seconds minimum).
|
|
|
|
This parameter is specific to backends, but can be specified once for all in
|
|
"defaults" sections. This is in fact one of the easiest solutions not to
|
|
forget about it. An unspecified timeout results in an infinite timeout, which
|
|
is not recommended. Such a usage is accepted and works but reports a warning
|
|
during startup because it may results in accumulation of expired sessions in
|
|
the system if the system's timeouts are not configured either.
|
|
|
|
This parameter replaces the old, deprecated "srvtimeout". It is recommended
|
|
to use it to write new configurations. The form "timeout srvtimeout" is
|
|
provided only by backwards compatibility but its use is strongly discouraged.
|
|
|
|
See also : "srvtimeout", "timeout client".
|
|
|
|
|
|
timeout tarpit <timeout>
|
|
Set the duration for which tarpitted connections will be maintained
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | yes | yes | yes
|
|
Arguments :
|
|
<timeout> is the tarpit duration specified in milliseconds by default, but
|
|
can be in any other unit if the number is suffixed by the unit,
|
|
as explained at the top of this document.
|
|
|
|
When a connection is tarpitted using "reqtarpit", it is maintained open with
|
|
no activity for a certain amount of time, then closed. "timeout tarpit"
|
|
defines how long it will be maintained open.
|
|
|
|
The value is specified in milliseconds by default, but can be in any other
|
|
unit if the number is suffixed by the unit, as specified at the top of this
|
|
document. If unspecified, the same value as the backend's connection timeout
|
|
("timeout connect") is used, for backwards compatibility with older versions
|
|
with no "timeout tarpit" parameter.
|
|
|
|
See also : "timeout connect", "contimeout".
|
|
|
|
|
|
transparent (deprecated)
|
|
Enable client-side transparent proxying
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
yes | no | yes | yes
|
|
Arguments : none
|
|
|
|
This keyword was introduced in order to provide layer 7 persistence to layer
|
|
3 load balancers. The idea is to use the OS's ability to redirect an incoming
|
|
connection for a remote address to a local process (here HAProxy), and let
|
|
this process know what address was initially requested. When this option is
|
|
used, sessions without cookies will be forwarded to the original destination
|
|
IP address of the incoming request (which should match that of another
|
|
equipment), while requests with cookies will still be forwarded to the
|
|
appropriate server.
|
|
|
|
The "transparent" keyword is deprecated, use "option transparent" instead.
|
|
|
|
Note that contrary to a common belief, this option does NOT make HAProxy
|
|
present the client's IP to the server when establishing the connection.
|
|
|
|
See also: "option transparent"
|
|
|
|
|
|
use_backend <backend> if <condition>
|
|
use_backend <backend> unless <condition>
|
|
Switch to a specific backend if/unless an ACL-based condition is matched.
|
|
May be used in sections : defaults | frontend | listen | backend
|
|
no | yes | yes | no
|
|
Arguments :
|
|
<backend> is the name of a valid backend or "listen" section.
|
|
|
|
<condition> is a condition composed of ACLs, as described in section 7.
|
|
|
|
When doing content-switching, connections arrive on a frontend and are then
|
|
dispatched to various backends depending on a number of conditions. The
|
|
relation between the conditions and the backends is described with the
|
|
"use_backend" keyword. While it is normally used with HTTP processing, it can
|
|
also be used in pure TCP, either without content using stateless ACLs (eg:
|
|
source address validation) or combined with a "tcp-request" rule to wait for
|
|
some payload.
|
|
|
|
There may be as many "use_backend" rules as desired. All of these rules are
|
|
evaluated in their declaration order, and the first one which matches will
|
|
assign the backend.
|
|
|
|
In the first form, the backend will be used if the condition is met. In the
|
|
second form, the backend will be used if the condition is not met. If no
|
|
condition is valid, the backend defined with "default_backend" will be used.
|
|
If no default backend is defined, either the servers in the same section are
|
|
used (in case of a "listen" section) or, in case of a frontend, no server is
|
|
used and a 503 service unavailable response is returned.
|
|
|
|
Note that it is possible to switch from a TCP frontend to an HTTP backend. In
|
|
this case, either the frontend has already checked that the protocol is HTTP,
|
|
and backend processing will immediately follow, or the backend will wait for
|
|
a complete HTTP request to get in. This feature is useful when a frontend
|
|
must decode several protocols on a unique port, one of them being HTTP.
|
|
|
|
See also: "default_backend", "tcp-request", and section 7 about ACLs.
|
|
|
|
|
|
5. Server and default-server options
|
|
------------------------------------
|
|
|
|
The "server" and "default-server" keywords support a certain number of settings
|
|
which are all passed as arguments on the server line. The order in which those
|
|
arguments appear does not count, and they are all optional. Some of those
|
|
settings are single words (booleans) while others expect one or several values
|
|
after them. In this case, the values must immediately follow the setting name.
|
|
Except default-server, all those settings must be specified after the server's
|
|
address if they are used:
|
|
|
|
server <name> <address>[:port] [settings ...]
|
|
default-server [settings ...]
|
|
|
|
The currently supported settings are the following ones.
|
|
|
|
addr <ipv4>
|
|
Using the "addr" parameter, it becomes possible to use a different IP address
|
|
to send health-checks. On some servers, it may be desirable to dedicate an IP
|
|
address to specific component able to perform complex tests which are more
|
|
suitable to health-checks than the application. This parameter is ignored if
|
|
the "check" parameter is not set. See also the "port" parameter.
|
|
|
|
Supported in default-server: No
|
|
|
|
backup
|
|
When "backup" is present on a server line, the server is only used in load
|
|
balancing when all other non-backup servers are unavailable. Requests coming
|
|
with a persistence cookie referencing the server will always be served
|
|
though. By default, only the first operational backup server is used, unless
|
|
the "allbackups" option is set in the backend. See also the "allbackups"
|
|
option.
|
|
|
|
Supported in default-server: No
|
|
|
|
check
|
|
This option enables health checks on the server. By default, a server is
|
|
always considered available. If "check" is set, the server will receive
|
|
periodic health checks to ensure that it is really able to serve requests.
|
|
The default address and port to send the tests to are those of the server,
|
|
and the default source is the same as the one defined in the backend. It is
|
|
possible to change the address using the "addr" parameter, the port using the
|
|
"port" parameter, the source address using the "source" address, and the
|
|
interval and timers using the "inter", "rise" and "fall" parameters. The
|
|
request method is define in the backend using the "httpchk", "smtpchk",
|
|
"mysql-check", "pgsql-check" and "ssl-hello-chk" options. Please refer to
|
|
those options and parameters for more information.
|
|
|
|
Supported in default-server: No
|
|
|
|
cookie <value>
|
|
The "cookie" parameter sets the cookie value assigned to the server to
|
|
<value>. This value will be checked in incoming requests, and the first
|
|
operational server possessing the same value will be selected. In return, in
|
|
cookie insertion or rewrite modes, this value will be assigned to the cookie
|
|
sent to the client. There is nothing wrong in having several servers sharing
|
|
the same cookie value, and it is in fact somewhat common between normal and
|
|
backup servers. See also the "cookie" keyword in backend section.
|
|
|
|
Supported in default-server: No
|
|
|
|
disabled
|
|
The "disabled" keyword starts the server in the "disabled" state. That means
|
|
that it is marked down in maintenance mode, and no connection other than the
|
|
ones allowed by persist mode will reach it. It is very well suited to setup
|
|
new servers, because normal traffic will never reach them, while it is still
|
|
possible to test the service by making use of the force-persist mechanism.
|
|
|
|
Supported in default-server: No
|
|
|
|
error-limit <count>
|
|
If health observing is enabled, the "error-limit" parameter specifies the
|
|
number of consecutive errors that triggers event selected by the "on-error"
|
|
option. By default it is set to 10 consecutive errors.
|
|
|
|
Supported in default-server: Yes
|
|
|
|
See also the "check", "error-limit" and "on-error".
|
|
|
|
fall <count>
|
|
The "fall" parameter states that a server will be considered as dead after
|
|
<count> consecutive unsuccessful health checks. This value defaults to 3 if
|
|
unspecified. See also the "check", "inter" and "rise" parameters.
|
|
|
|
Supported in default-server: Yes
|
|
|
|
id <value>
|
|
Set a persistent ID for the server. This ID must be positive and unique for
|
|
the proxy. An unused ID will automatically be assigned if unset. The first
|
|
assigned value will be 1. This ID is currently only returned in statistics.
|
|
|
|
Supported in default-server: No
|
|
|
|
inter <delay>
|
|
fastinter <delay>
|
|
downinter <delay>
|
|
The "inter" parameter sets the interval between two consecutive health checks
|
|
to <delay> milliseconds. If left unspecified, the delay defaults to 2000 ms.
|
|
It is also possible to use "fastinter" and "downinter" to optimize delays
|
|
between checks depending on the server state :
|
|
|
|
Server state | Interval used
|
|
---------------------------------+-----------------------------------------
|
|
UP 100% (non-transitional) | "inter"
|
|
---------------------------------+-----------------------------------------
|
|
Transitionally UP (going down), |
|
|
Transitionally DOWN (going up), | "fastinter" if set, "inter" otherwise.
|
|
or yet unchecked. |
|
|
---------------------------------+-----------------------------------------
|
|
DOWN 100% (non-transitional) | "downinter" if set, "inter" otherwise.
|
|
---------------------------------+-----------------------------------------
|
|
|
|
Just as with every other time-based parameter, they can be entered in any
|
|
other explicit unit among { us, ms, s, m, h, d }. The "inter" parameter also
|
|
serves as a timeout for health checks sent to servers if "timeout check" is
|
|
not set. In order to reduce "resonance" effects when multiple servers are
|
|
hosted on the same hardware, the health-checks of all servers are started
|
|
with a small time offset between them. It is also possible to add some random
|
|
noise in the health checks interval using the global "spread-checks"
|
|
keyword. This makes sense for instance when a lot of backends use the same
|
|
servers.
|
|
|
|
Supported in default-server: Yes
|
|
|
|
maxconn <maxconn>
|
|
The "maxconn" parameter specifies the maximal number of concurrent
|
|
connections that will be sent to this server. If the number of incoming
|
|
concurrent requests goes higher than this value, they will be queued, waiting
|
|
for a connection to be released. This parameter is very important as it can
|
|
save fragile servers from going down under extreme loads. If a "minconn"
|
|
parameter is specified, the limit becomes dynamic. The default value is "0"
|
|
which means unlimited. See also the "minconn" and "maxqueue" parameters, and
|
|
the backend's "fullconn" keyword.
|
|
|
|
Supported in default-server: Yes
|
|
|
|
maxqueue <maxqueue>
|
|
The "maxqueue" parameter specifies the maximal number of connections which
|
|
will wait in the queue for this server. If this limit is reached, next
|
|
requests will be redispatched to other servers instead of indefinitely
|
|
waiting to be served. This will break persistence but may allow people to
|
|
quickly re-log in when the server they try to connect to is dying. The
|
|
default value is "0" which means the queue is unlimited. See also the
|
|
"maxconn" and "minconn" parameters.
|
|
|
|
Supported in default-server: Yes
|
|
|
|
minconn <minconn>
|
|
When the "minconn" parameter is set, the maxconn limit becomes a dynamic
|
|
limit following the backend's load. The server will always accept at least
|
|
<minconn> connections, never more than <maxconn>, and the limit will be on
|
|
the ramp between both values when the backend has less than <fullconn>
|
|
concurrent connections. This makes it possible to limit the load on the
|
|
server during normal loads, but push it further for important loads without
|
|
overloading the server during exceptional loads. See also the "maxconn"
|
|
and "maxqueue" parameters, as well as the "fullconn" backend keyword.
|
|
|
|
Supported in default-server: Yes
|
|
|
|
observe <mode>
|
|
This option enables health adjusting based on observing communication with
|
|
the server. By default this functionality is disabled and enabling it also
|
|
requires to enable health checks. There are two supported modes: "layer4" and
|
|
"layer7". In layer4 mode, only successful/unsuccessful tcp connections are
|
|
significant. In layer7, which is only allowed for http proxies, responses
|
|
received from server are verified, like valid/wrong http code, unparsable
|
|
headers, a timeout, etc.
|
|
|
|
Supported in default-server: No
|
|
|
|
See also the "check", "on-error" and "error-limit".
|
|
|
|
on-error <mode>
|
|
Select what should happen when enough consecutive errors are detected.
|
|
Currently, four modes are available:
|
|
- fastinter: force fastinter
|
|
- fail-check: simulate a failed check, also forces fastinter (default)
|
|
- sudden-death: simulate a pre-fatal failed health check, one more failed
|
|
check will mark a server down, forces fastinter
|
|
- mark-down: mark the server immediately down and force fastinter
|
|
|
|
Supported in default-server: Yes
|
|
|
|
See also the "check", "observe" and "error-limit".
|
|
|
|
port <port>
|
|
Using the "port" parameter, it becomes possible to use a different port to
|
|
send health-checks. On some servers, it may be desirable to dedicate a port
|
|
to a specific component able to perform complex tests which are more suitable
|
|
to health-checks than the application. It is common to run a simple script in
|
|
inetd for instance. This parameter is ignored if the "check" parameter is not
|
|
set. See also the "addr" parameter.
|
|
|
|
Supported in default-server: Yes
|
|
|
|
redir <prefix>
|
|
The "redir" parameter enables the redirection mode for all GET and HEAD
|
|
requests addressing this server. This means that instead of having HAProxy
|
|
forward the request to the server, it will send an "HTTP 302" response with
|
|
the "Location" header composed of this prefix immediately followed by the
|
|
requested URI beginning at the leading '/' of the path component. That means
|
|
that no trailing slash should be used after <prefix>. All invalid requests
|
|
will be rejected, and all non-GET or HEAD requests will be normally served by
|
|
the server. Note that since the response is completely forged, no header
|
|
mangling nor cookie insertion is possible in the response. However, cookies in
|
|
requests are still analysed, making this solution completely usable to direct
|
|
users to a remote location in case of local disaster. Main use consists in
|
|
increasing bandwidth for static servers by having the clients directly
|
|
connect to them. Note: never use a relative location here, it would cause a
|
|
loop between the client and HAProxy!
|
|
|
|
Example : server srv1 192.168.1.1:80 redir http://image1.mydomain.com check
|
|
|
|
Supported in default-server: No
|
|
|
|
rise <count>
|
|
The "rise" parameter states that a server will be considered as operational
|
|
after <count> consecutive successful health checks. This value defaults to 2
|
|
if unspecified. See also the "check", "inter" and "fall" parameters.
|
|
|
|
Supported in default-server: Yes
|
|
|
|
send-proxy
|
|
The "send-proxy" parameter enforces use of the PROXY protocol over any
|
|
connection established to this server. The PROXY protocol informs the other
|
|
end about the layer 3/4 addresses of the incoming connection, so that it can
|
|
know the client's address or the public address it accessed to, whatever the
|
|
upper layer protocol. For connections accepted by an "accept-proxy" listener,
|
|
the advertised address will be used. Only TCPv4 and TCPv6 address families
|
|
are supported. Other families such as Unix sockets, will report an UNKNOWN
|
|
family. Servers using this option can fully be chained to another instance of
|
|
haproxy listening with an "accept-proxy" setting. This setting must not be
|
|
used if the server isn't aware of the protocol. See also the "accept-proxy"
|
|
option of the "bind" keyword.
|
|
|
|
Supported in default-server: No
|
|
|
|
slowstart <start_time_in_ms>
|
|
The "slowstart" parameter for a server accepts a value in milliseconds which
|
|
indicates after how long a server which has just come back up will run at
|
|
full speed. Just as with every other time-based parameter, it can be entered
|
|
in any other explicit unit among { us, ms, s, m, h, d }. The speed grows
|
|
linearly from 0 to 100% during this time. The limitation applies to two
|
|
parameters :
|
|
|
|
- maxconn: the number of connections accepted by the server will grow from 1
|
|
to 100% of the usual dynamic limit defined by (minconn,maxconn,fullconn).
|
|
|
|
- weight: when the backend uses a dynamic weighted algorithm, the weight
|
|
grows linearly from 1 to 100%. In this case, the weight is updated at every
|
|
health-check. For this reason, it is important that the "inter" parameter
|
|
is smaller than the "slowstart", in order to maximize the number of steps.
|
|
|
|
The slowstart never applies when haproxy starts, otherwise it would cause
|
|
trouble to running servers. It only applies when a server has been previously
|
|
seen as failed.
|
|
|
|
Supported in default-server: Yes
|
|
|
|
source <addr>[:<pl>[-<ph>]] [usesrc { <addr2>[:<port2>] | client | clientip } ]
|
|
source <addr>[:<port>] [usesrc { <addr2>[:<port2>] | hdr_ip(<hdr>[,<occ>]) } ]
|
|
source <addr>[:<pl>[-<ph>]] [interface <name>] ...
|
|
The "source" parameter sets the source address which will be used when
|
|
connecting to the server. It follows the exact same parameters and principle
|
|
as the backend "source" keyword, except that it only applies to the server
|
|
referencing it. Please consult the "source" keyword for details.
|
|
|
|
Additionally, the "source" statement on a server line allows one to specify a
|
|
source port range by indicating the lower and higher bounds delimited by a
|
|
dash ('-'). Some operating systems might require a valid IP address when a
|
|
source port range is specified. It is permitted to have the same IP/range for
|
|
several servers. Doing so makes it possible to bypass the maximum of 64k
|
|
total concurrent connections. The limit will then reach 64k connections per
|
|
server.
|
|
|
|
Supported in default-server: No
|
|
|
|
track [<proxy>/]<server>
|
|
This option enables ability to set the current state of the server by
|
|
tracking another one. Only a server with checks enabled can be tracked
|
|
so it is not possible for example to track a server that tracks another
|
|
one. If <proxy> is omitted the current one is used. If disable-on-404 is
|
|
used, it has to be enabled on both proxies.
|
|
|
|
Supported in default-server: No
|
|
|
|
weight <weight>
|
|
The "weight" parameter is used to adjust the server's weight relative to
|
|
other servers. All servers will receive a load proportional to their weight
|
|
relative to the sum of all weights, so the higher the weight, the higher the
|
|
load. The default weight is 1, and the maximal value is 256. A value of 0
|
|
means the server will not participate in load-balancing but will still accept
|
|
persistent connections. If this parameter is used to distribute the load
|
|
according to server's capacity, it is recommended to start with values which
|
|
can both grow and shrink, for instance between 10 and 100 to leave enough
|
|
room above and below for later adjustments.
|
|
|
|
Supported in default-server: Yes
|
|
|
|
|
|
6. HTTP header manipulation
|
|
---------------------------
|
|
|
|
In HTTP mode, it is possible to rewrite, add or delete some of the request and
|
|
response headers based on regular expressions. It is also possible to block a
|
|
request or a response if a particular header matches a regular expression,
|
|
which is enough to stop most elementary protocol attacks, and to protect
|
|
against information leak from the internal network. But there is a limitation
|
|
to this : since HAProxy's HTTP engine does not support keep-alive, only headers
|
|
passed during the first request of a TCP session will be seen. All subsequent
|
|
headers will be considered data only and not analyzed. Furthermore, HAProxy
|
|
never touches data contents, it stops analysis at the end of headers.
|
|
|
|
There is an exception though. If HAProxy encounters an "Informational Response"
|
|
(status code 1xx), it is able to process all rsp* rules which can allow, deny,
|
|
rewrite or delete a header, but it will refuse to add a header to any such
|
|
messages as this is not HTTP-compliant. The reason for still processing headers
|
|
in such responses is to stop and/or fix any possible information leak which may
|
|
happen, for instance because another downstream equipment would unconditionally
|
|
add a header, or if a server name appears there. When such messages are seen,
|
|
normal processing still occurs on the next non-informational messages.
|
|
|
|
This section covers common usage of the following keywords, described in detail
|
|
in section 4.2 :
|
|
|
|
- reqadd <string>
|
|
- reqallow <search>
|
|
- reqiallow <search>
|
|
- reqdel <search>
|
|
- reqidel <search>
|
|
- reqdeny <search>
|
|
- reqideny <search>
|
|
- reqpass <search>
|
|
- reqipass <search>
|
|
- reqrep <search> <replace>
|
|
- reqirep <search> <replace>
|
|
- reqtarpit <search>
|
|
- reqitarpit <search>
|
|
- rspadd <string>
|
|
- rspdel <search>
|
|
- rspidel <search>
|
|
- rspdeny <search>
|
|
- rspideny <search>
|
|
- rsprep <search> <replace>
|
|
- rspirep <search> <replace>
|
|
|
|
With all these keywords, the same conventions are used. The <search> parameter
|
|
is a POSIX extended regular expression (regex) which supports grouping through
|
|
parenthesis (without the backslash). Spaces and other delimiters must be
|
|
prefixed with a backslash ('\') to avoid confusion with a field delimiter.
|
|
Other characters may be prefixed with a backslash to change their meaning :
|
|
|
|
\t for a tab
|
|
\r for a carriage return (CR)
|
|
\n for a new line (LF)
|
|
\ to mark a space and differentiate it from a delimiter
|
|
\# to mark a sharp and differentiate it from a comment
|
|
\\ to use a backslash in a regex
|
|
\\\\ to use a backslash in the text (*2 for regex, *2 for haproxy)
|
|
\xXX to write the ASCII hex code XX as in the C language
|
|
|
|
The <replace> parameter contains the string to be used to replace the largest
|
|
portion of text matching the regex. It can make use of the special characters
|
|
above, and can reference a substring which is delimited by parenthesis in the
|
|
regex, by writing a backslash ('\') immediately followed by one digit from 0 to
|
|
9 indicating the group position (0 designating the entire line). This practice
|
|
is very common to users of the "sed" program.
|
|
|
|
The <string> parameter represents the string which will systematically be added
|
|
after the last header line. It can also use special character sequences above.
|
|
|
|
Notes related to these keywords :
|
|
---------------------------------
|
|
- these keywords are not always convenient to allow/deny based on header
|
|
contents. It is strongly recommended to use ACLs with the "block" keyword
|
|
instead, resulting in far more flexible and manageable rules.
|
|
|
|
- lines are always considered as a whole. It is not possible to reference
|
|
a header name only or a value only. This is important because of the way
|
|
headers are written (notably the number of spaces after the colon).
|
|
|
|
- the first line is always considered as a header, which makes it possible to
|
|
rewrite or filter HTTP requests URIs or response codes, but in turn makes
|
|
it harder to distinguish between headers and request line. The regex prefix
|
|
^[^\ \t]*[\ \t] matches any HTTP method followed by a space, and the prefix
|
|
^[^ \t:]*: matches any header name followed by a colon.
|
|
|
|
- for performances reasons, the number of characters added to a request or to
|
|
a response is limited at build time to values between 1 and 4 kB. This
|
|
should normally be far more than enough for most usages. If it is too short
|
|
on occasional usages, it is possible to gain some space by removing some
|
|
useless headers before adding new ones.
|
|
|
|
- keywords beginning with "reqi" and "rspi" are the same as their counterpart
|
|
without the 'i' letter except that they ignore case when matching patterns.
|
|
|
|
- when a request passes through a frontend then a backend, all req* rules
|
|
from the frontend will be evaluated, then all req* rules from the backend
|
|
will be evaluated. The reverse path is applied to responses.
|
|
|
|
- req* statements are applied after "block" statements, so that "block" is
|
|
always the first one, but before "use_backend" in order to permit rewriting
|
|
before switching.
|
|
|
|
|
|
7. Using ACLs and pattern extraction
|
|
------------------------------------
|
|
|
|
The use of Access Control Lists (ACL) provides a flexible solution to perform
|
|
content switching and generally to take decisions based on content extracted
|
|
from the request, the response or any environmental status. The principle is
|
|
simple :
|
|
|
|
- define test criteria with sets of values
|
|
- perform actions only if a set of tests is valid
|
|
|
|
The actions generally consist in blocking the request, or selecting a backend.
|
|
|
|
In order to define a test, the "acl" keyword is used. The syntax is :
|
|
|
|
acl <aclname> <criterion> [flags] [operator] <value> ...
|
|
|
|
This creates a new ACL <aclname> or completes an existing one with new tests.
|
|
Those tests apply to the portion of request/response specified in <criterion>
|
|
and may be adjusted with optional flags [flags]. Some criteria also support
|
|
an operator which may be specified before the set of values. The values are
|
|
of the type supported by the criterion, and are separated by spaces.
|
|
|
|
ACL names must be formed from upper and lower case letters, digits, '-' (dash),
|
|
'_' (underscore) , '.' (dot) and ':' (colon). ACL names are case-sensitive,
|
|
which means that "my_acl" and "My_Acl" are two different ACLs.
|
|
|
|
There is no enforced limit to the number of ACLs. The unused ones do not affect
|
|
performance, they just consume a small amount of memory.
|
|
|
|
The following ACL flags are currently supported :
|
|
|
|
-i : ignore case during matching of all subsequent patterns.
|
|
-f : load patterns from a file.
|
|
-- : force end of flags. Useful when a string looks like one of the flags.
|
|
|
|
The "-f" flag is special as it loads all of the lines it finds in the file
|
|
specified in argument and loads all of them before continuing. It is even
|
|
possible to pass multiple "-f" arguments if the patterns are to be loaded from
|
|
multiple files. Empty lines as well as lines beginning with a sharp ('#') will
|
|
be ignored. All leading spaces and tabs will be stripped. If it is absolutely
|
|
needed to insert a valid pattern beginning with a sharp, just prefix it with a
|
|
space so that it is not taken for a comment. Depending on the data type and
|
|
match method, haproxy may load the lines into a binary tree, allowing very fast
|
|
lookups. This is true for IPv4 and exact string matching. In this case,
|
|
duplicates will automatically be removed. Also, note that the "-i" flag applies
|
|
to subsequent entries and not to entries loaded from files preceeding it. For
|
|
instance :
|
|
|
|
acl valid-ua hdr(user-agent) -f exact-ua.lst -i -f generic-ua.lst test
|
|
|
|
In this example, each line of "exact-ua.lst" will be exactly matched against
|
|
the "user-agent" header of the request. Then each line of "generic-ua" will be
|
|
case-insensitively matched. Then the word "test" will be insensitively matched
|
|
too.
|
|
|
|
Note that right now it is difficult for the ACL parsers to report errors, so if
|
|
a file is unreadable or unparsable, the most you'll get is a parse error in the
|
|
ACL. Thus, file-based ACLs should only be produced by reliable processes.
|
|
|
|
Supported types of values are :
|
|
|
|
- integers or integer ranges
|
|
- strings
|
|
- regular expressions
|
|
- IP addresses and networks
|
|
|
|
|
|
7.1. Matching integers
|
|
----------------------
|
|
|
|
Matching integers is special in that ranges and operators are permitted. Note
|
|
that integer matching only applies to positive values. A range is a value
|
|
expressed with a lower and an upper bound separated with a colon, both of which
|
|
may be omitted.
|
|
|
|
For instance, "1024:65535" is a valid range to represent a range of
|
|
unprivileged ports, and "1024:" would also work. "0:1023" is a valid
|
|
representation of privileged ports, and ":1023" would also work.
|
|
|
|
As a special case, some ACL functions support decimal numbers which are in fact
|
|
two integers separated by a dot. This is used with some version checks for
|
|
instance. All integer properties apply to those decimal numbers, including
|
|
ranges and operators.
|
|
|
|
For an easier usage, comparison operators are also supported. Note that using
|
|
operators with ranges does not make much sense and is strongly discouraged.
|
|
Similarly, it does not make much sense to perform order comparisons with a set
|
|
of values.
|
|
|
|
Available operators for integer matching are :
|
|
|
|
eq : true if the tested value equals at least one value
|
|
ge : true if the tested value is greater than or equal to at least one value
|
|
gt : true if the tested value is greater than at least one value
|
|
le : true if the tested value is less than or equal to at least one value
|
|
lt : true if the tested value is less than at least one value
|
|
|
|
For instance, the following ACL matches any negative Content-Length header :
|
|
|
|
acl negative-length hdr_val(content-length) lt 0
|
|
|
|
This one matches SSL versions between 3.0 and 3.1 (inclusive) :
|
|
|
|
acl sslv3 req_ssl_ver 3:3.1
|
|
|
|
|
|
7.2. Matching strings
|
|
---------------------
|
|
|
|
String matching applies to verbatim strings as they are passed, with the
|
|
exception of the backslash ("\") which makes it possible to escape some
|
|
characters such as the space. If the "-i" flag is passed before the first
|
|
string, then the matching will be performed ignoring the case. In order
|
|
to match the string "-i", either set it second, or pass the "--" flag
|
|
before the first string. Same applies of course to match the string "--".
|
|
|
|
|
|
7.3. Matching regular expressions (regexes)
|
|
-------------------------------------------
|
|
|
|
Just like with string matching, regex matching applies to verbatim strings as
|
|
they are passed, with the exception of the backslash ("\") which makes it
|
|
possible to escape some characters such as the space. If the "-i" flag is
|
|
passed before the first regex, then the matching will be performed ignoring
|
|
the case. In order to match the string "-i", either set it second, or pass
|
|
the "--" flag before the first string. Same principle applies of course to
|
|
match the string "--".
|
|
|
|
|
|
7.4. Matching IPv4 addresses
|
|
----------------------------
|
|
|
|
IPv4 addresses values can be specified either as plain addresses or with a
|
|
netmask appended, in which case the IPv4 address matches whenever it is
|
|
within the network. Plain addresses may also be replaced with a resolvable
|
|
host name, but this practice is generally discouraged as it makes it more
|
|
difficult to read and debug configurations. If hostnames are used, you should
|
|
at least ensure that they are present in /etc/hosts so that the configuration
|
|
does not depend on any random DNS match at the moment the configuration is
|
|
parsed.
|
|
|
|
|
|
7.5. Available matching criteria
|
|
--------------------------------
|
|
|
|
7.5.1. Matching at Layer 4 and below
|
|
------------------------------------
|
|
|
|
A first set of criteria applies to information which does not require any
|
|
analysis of the request or response contents. Those generally include TCP/IP
|
|
addresses and ports, as well as internal values independant on the stream.
|
|
|
|
always_false
|
|
This one never matches. All values and flags are ignored. It may be used as
|
|
a temporary replacement for another one when adjusting configurations.
|
|
|
|
always_true
|
|
This one always matches. All values and flags are ignored. It may be used as
|
|
a temporary replacement for another one when adjusting configurations.
|
|
|
|
avg_queue <integer>
|
|
avg_queue(backend) <integer>
|
|
Returns the total number of queued connections of the designated backend
|
|
divided by the number of active servers. This is very similar to "queue"
|
|
except that the size of the farm is considered, in order to give a more
|
|
accurate measurement of the time it may take for a new connection to be
|
|
processed. The main usage is to return a sorry page to new users when it
|
|
becomes certain they will get a degraded service. Note that in the event
|
|
there would not be any active server anymore, we would consider twice the
|
|
number of queued connections as the measured value. This is a fair estimate,
|
|
as we expect one server to get back soon anyway, but we still prefer to send
|
|
new traffic to another backend if in better shape. See also the "queue",
|
|
"be_conn", and "be_sess_rate" criteria.
|
|
|
|
be_conn <integer>
|
|
be_conn(backend) <integer>
|
|
Applies to the number of currently established connections on the backend,
|
|
possibly including the connection being evaluated. If no backend name is
|
|
specified, the current one is used. But it is also possible to check another
|
|
backend. It can be used to use a specific farm when the nominal one is full.
|
|
See also the "fe_conn", "queue" and "be_sess_rate" criteria.
|
|
|
|
be_id <integer>
|
|
Applies to the backend's id. Can be used in frontends to check from which
|
|
backend it was called.
|
|
|
|
be_sess_rate <integer>
|
|
be_sess_rate(backend) <integer>
|
|
Returns true when the sessions creation rate on the backend matches the
|
|
specified values or ranges, in number of new sessions per second. This is
|
|
used to switch to an alternate backend when an expensive or fragile one
|
|
reaches too high a session rate, or to limit abuse of service (eg. prevent
|
|
sucking of an online dictionary).
|
|
|
|
Example :
|
|
# Redirect to an error page if the dictionary is requested too often
|
|
backend dynamic
|
|
mode http
|
|
acl being_scanned be_sess_rate gt 100
|
|
redirect location /denied.html if being_scanned
|
|
|
|
connslots <integer>
|
|
connslots(backend) <integer>
|
|
The basic idea here is to be able to measure the number of connection "slots"
|
|
still available (connection + queue), so that anything beyond that (intended
|
|
usage; see "use_backend" keyword) can be redirected to a different backend.
|
|
|
|
'connslots' = number of available server connection slots, + number of
|
|
available server queue slots.
|
|
|
|
Note that while "fe_conn" may be used, "connslots" comes in especially
|
|
useful when you have a case of traffic going to one single ip, splitting into
|
|
multiple backends (perhaps using acls to do name-based load balancing) and
|
|
you want to be able to differentiate between different backends, and their
|
|
available "connslots". Also, whereas "nbsrv" only measures servers that are
|
|
actually *down*, this acl is more fine-grained and looks into the number of
|
|
available connection slots as well. See also "queue" and "avg_queue".
|
|
|
|
OTHER CAVEATS AND NOTES: at this point in time, the code does not take care
|
|
of dynamic connections. Also, if any of the server maxconn, or maxqueue is 0,
|
|
then this acl clearly does not make sense, in which case the value returned
|
|
will be -1.
|
|
|
|
dst <ip_address>
|
|
Applies to the local IPv4 address the client connected to. It can be used to
|
|
switch to a different backend for some alternative addresses.
|
|
|
|
dst_conn <integer>
|
|
Applies to the number of currently established connections on the same socket
|
|
including the one being evaluated. It can be used to either return a sorry
|
|
page before hard-blocking, or to use a specific backend to drain new requests
|
|
when the socket is considered saturated. This offers the ability to assign
|
|
different limits to different listening ports or addresses. See also the
|
|
"fe_conn" and "be_conn" criteria.
|
|
|
|
dst_port <integer>
|
|
Applies to the local port the client connected to. It can be used to switch
|
|
to a different backend for some alternative ports.
|
|
|
|
fe_conn <integer>
|
|
fe_conn(frontend) <integer>
|
|
Applies to the number of currently established connections on the frontend,
|
|
possibly including the connection being evaluated. If no frontend name is
|
|
specified, the current one is used. But it is also possible to check another
|
|
frontend. It can be used to either return a sorry page before hard-blocking,
|
|
or to use a specific backend to drain new requests when the farm is
|
|
considered saturated. See also the "dst_conn", "be_conn" and "fe_sess_rate"
|
|
criteria.
|
|
|
|
fe_id <integer>
|
|
Applies to the frontend's id. Can be used in backends to check from which
|
|
frontend it was called.
|
|
|
|
fe_sess_rate <integer>
|
|
fe_sess_rate(frontend) <integer>
|
|
Returns true when the session creation rate on the current or the named
|
|
frontend matches the specified values or ranges, expressed in new sessions
|
|
per second. This is used to limit the connection rate to acceptable ranges in
|
|
order to prevent abuse of service at the earliest moment. This can be
|
|
combined with layer 4 ACLs in order to force the clients to wait a bit for
|
|
the rate to go down below the limit.
|
|
|
|
Example :
|
|
# This frontend limits incoming mails to 10/s with a max of 100
|
|
# concurrent connections. We accept any connection below 10/s, and
|
|
# force excess clients to wait for 100 ms. Since clients are limited to
|
|
# 100 max, there cannot be more than 10 incoming mails per second.
|
|
frontend mail
|
|
bind :25
|
|
mode tcp
|
|
maxconn 100
|
|
acl too_fast fe_sess_rate ge 10
|
|
tcp-request inspect-delay 100ms
|
|
tcp-request content accept if ! too_fast
|
|
tcp-request content accept if WAIT_END
|
|
|
|
nbsrv <integer>
|
|
nbsrv(backend) <integer>
|
|
Returns true when the number of usable servers of either the current backend
|
|
or the named backend matches the values or ranges specified. This is used to
|
|
switch to an alternate backend when the number of servers is too low to
|
|
to handle some load. It is useful to report a failure when combined with
|
|
"monitor fail".
|
|
|
|
queue <integer>
|
|
queue(backend) <integer>
|
|
Returns the total number of queued connections of the designated backend,
|
|
including all the connections in server queues. If no backend name is
|
|
specified, the current one is used, but it is also possible to check another
|
|
one. This can be used to take actions when queuing goes above a known level,
|
|
generally indicating a surge of traffic or a massive slowdown on the servers.
|
|
One possible action could be to reject new users but still accept old ones.
|
|
See also the "avg_queue", "be_conn", and "be_sess_rate" criteria.
|
|
|
|
sc1_bytes_in_rate
|
|
sc2_bytes_in_rate
|
|
Returns the average client-to-server bytes rate from the currently tracked
|
|
counters, measured in amount of bytes over the period configured in the
|
|
table. See also src_bytes_in_rate.
|
|
|
|
sc1_bytes_out_rate
|
|
sc2_bytes_out_rate
|
|
Returns the average server-to-client bytes rate from the currently tracked
|
|
counters, measured in amount of bytes over the period configured in the
|
|
table. See also src_bytes_out_rate.
|
|
|
|
sc1_conn_cnt
|
|
sc2_conn_cnt
|
|
Returns the cumulated number of incoming connections from currently tracked
|
|
counters. See also src_conn_cnt.
|
|
|
|
sc1_conn_cur
|
|
sc2_conn_cur
|
|
Returns the current amount of concurrent connections tracking the same
|
|
tracked counters. This number is automatically incremented when tracking
|
|
begins and decremented when tracking stops. See also src_conn_cur.
|
|
|
|
sc1_conn_rate
|
|
sc2_conn_rate
|
|
Returns the average connection rate from the currently tracked counters,
|
|
measured in amount of connections over the period configured in the table.
|
|
See also src_conn_rate.
|
|
|
|
sc1_get_gpc0
|
|
sc2_get_gpc0
|
|
Returns the value of the first General Purpose Counter associated to the
|
|
currently tracked counters. See also src_get_gpc0 and sc1/sc2_inc_gpc0.
|
|
|
|
sc1_http_err_cnt
|
|
sc2_http_err_cnt
|
|
Returns the cumulated number of HTTP errors from the currently tracked
|
|
counters. This includes the both request errors and 4xx error responses.
|
|
See also src_http_err_cnt.
|
|
|
|
sc1_http_err_rate
|
|
sc2_http_err_rate
|
|
Returns the average rate of HTTP errors from the currently tracked counters,
|
|
measured in amount of errors over the period configured in the table. This
|
|
includes the both request errors and 4xx error responses. See also
|
|
src_http_err_rate.
|
|
|
|
sc1_http_req_cnt
|
|
sc2_http_req_cnt
|
|
Returns the cumulated number of HTTP requests from the currently tracked
|
|
counters. This includes every started request, valid or not. See also
|
|
src_http_req_cnt.
|
|
|
|
sc1_http_req_rate
|
|
sc2_http_req_rate
|
|
Returns the average rate of HTTP requests from the currently tracked
|
|
counters, measured in amount of requests over the period configured in
|
|
the table. This includes every started request, valid or not. See also
|
|
src_http_req_rate.
|
|
|
|
sc1_inc_gpc0
|
|
sc2_inc_gpc0
|
|
Increments the first General Purpose Counter associated to the currently
|
|
tracked counters, and returns its value. Before the first invocation, the
|
|
stored value is zero, so first invocation will increase it to 1 and will
|
|
return 1. The test can also be used alone and always returns true. This is
|
|
typically used as a second ACL in an expression in order to mark a connection
|
|
when a first ACL was verified :
|
|
|
|
acl abuse sc1_http_req_rate gt 10
|
|
acl kill sc1_inc_gpc0
|
|
tcp-request connection reject if abuse kill
|
|
|
|
sc1_kbytes_in
|
|
sc2_kbytes_in
|
|
Returns the amount of client-to-server data from the currently tracked
|
|
counters, measured in kilobytes over the period configured in the table. The
|
|
test is currently performed on 32-bit integers, which limits values to 4
|
|
terabytes. See also src_kbytes_in.
|
|
|
|
sc1_kbytes_out
|
|
sc2_kbytes_out
|
|
Returns the amount of server-to-client data from the currently tracked
|
|
counters, measured in kilobytes over the period configured in the table. The
|
|
test is currently performed on 32-bit integers, which limits values to 4
|
|
terabytes. See also src_kbytes_out.
|
|
|
|
sc1_sess_cnt
|
|
sc2_sess_cnt
|
|
Returns the cumulated number of incoming connections that were transformed
|
|
into sessions, which means that they were accepted by a "tcp-request
|
|
connection" rule, from the currently tracked counters. A backend may count
|
|
more sessions than connections because each connection could result in many
|
|
backend sessions if some HTTP keep-alive is performend over the connection
|
|
with the client. See also src_sess_cnt.
|
|
|
|
sc1_sess_rate
|
|
sc2_sess_rate
|
|
Returns the average session rate from the currently tracked counters,
|
|
measured in amount of sessions over the period configured in the table. A
|
|
session is a connection that got past the early "tcp-request connection"
|
|
rules. A backend may count more sessions than connections because each
|
|
connection could result in many backend sessions if some HTTP keep-alive is
|
|
performend over the connection with the client. See also src_sess_rate.
|
|
|
|
so_id <integer>
|
|
Applies to the socket's id. Useful in frontends with many bind keywords.
|
|
|
|
src <ip_address>
|
|
Applies to the client's IPv4 address. It is usually used to limit access to
|
|
certain resources such as statistics. Note that it is the TCP-level source
|
|
address which is used, and not the address of a client behind a proxy.
|
|
|
|
src_bytes_in_rate <integer>
|
|
src_bytes_in_rate(table) <integer>
|
|
Returns the average bytes rate from the connection's source IPv4 address in
|
|
the current proxy's stick-table or in the designated stick-table, measured in
|
|
amount of bytes over the period configured in the table. If the address is
|
|
not found, zero is returned. See also sc1/sc2_bytes_in_rate.
|
|
|
|
src_bytes_out_rate <integer>
|
|
src_bytes_out_rate(table) <integer>
|
|
Returns the average bytes rate to the connection's source IPv4 address in the
|
|
current proxy's stick-table or in the designated stick-table, measured in
|
|
amount of bytes over the period configured in the table. If the address is
|
|
not found, zero is returned. See also sc1/sc2_bytes_out_rate.
|
|
|
|
src_conn_cnt <integer>
|
|
src_conn_cnt(table) <integer>
|
|
Returns the cumulated number of connections initiated from the current
|
|
connection's source IPv4 address in the current proxy's stick-table or in
|
|
the designated stick-table. If the address is not found, zero is returned.
|
|
See also sc1/sc2_conn_cnt.
|
|
|
|
src_conn_cur <integer>
|
|
src_conn_cur(table) <integer>
|
|
Returns the current amount of concurrent connections initiated from the
|
|
current connection's source IPv4 address in the current proxy's stick-table
|
|
or in the designated stick-table. If the address is not found, zero is
|
|
returned. See also sc1/sc2_conn_cur.
|
|
|
|
src_conn_rate <integer>
|
|
src_conn_rate(table) <integer>
|
|
Returns the average connection rate from the connection's source IPv4 address
|
|
in the current proxy's stick-table or in the designated stick-table, measured
|
|
in amount of connections over the period configured in the table. If the
|
|
address is not found, zero is returned. See also sc1/sc2_conn_rate.
|
|
|
|
src_get_gpc0 <integer>
|
|
src_get_gpc0(table) <integer>
|
|
Returns the value of the first General Purpose Counter associated to the
|
|
connection's source IPv4 address in the current proxy's stick-table or in
|
|
the designated stick-table. If the address is not found, zero is returned.
|
|
See also sc1/sc2_get_gpc0 and src_inc_gpc0.
|
|
|
|
src_http_err_cnt <integer>
|
|
src_http_err_cnt(table) <integer>
|
|
Returns the cumulated number of HTTP errors from the current connection's
|
|
source IPv4 address in the current proxy's stick-table or in the designated
|
|
stick-table. This includes the both request errors and 4xx error responses.
|
|
If the address is not found, zero is returned. See also sc1/sc2_http_err_cnt.
|
|
|
|
src_http_err_rate <integer>
|
|
src_http_err_rate(table) <integer>
|
|
Returns the average rate of HTTP errors from the current connection's source
|
|
IPv4 address in the current proxy's stick-table or in the designated stick-
|
|
table, measured in amount of errors over the period configured in the table.
|
|
This includes the both request errors and 4xx error responses. If the address
|
|
is not found, zero is returned. See also sc1/sc2_http_err_rate.
|
|
|
|
src_http_req_cnt <integer>
|
|
src_http_req_cnt(table) <integer>
|
|
Returns the cumulated number of HTTP requests from the current connection's
|
|
source IPv4 address in the current proxy's stick-table or in the designated
|
|
stick-table. This includes every started request, valid or not. If the
|
|
address is not found, zero is returned. See also sc1/sc2_http_req_cnt.
|
|
|
|
src_http_req_rate <integer>
|
|
src_http_req_rate(table) <integer>
|
|
Returns the average rate of HTTP requests from the current connection's
|
|
source IPv4 address in the current proxy's stick-table or in the designated
|
|
stick-table, measured in amount of requests over the period configured in the
|
|
table. This includes every started request, valid or not. If the address is
|
|
not found, zero is returned. See also sc1/sc2_http_req_rate.
|
|
|
|
src_inc_gpc0 <integer>
|
|
src_inc_gpc0(table) <integer>
|
|
Increments the first General Purpose Counter associated to the connection's
|
|
source IPv4 address in the current proxy's stick-table or in the designated
|
|
stick-table, and returns its value. If the address is not found, an entry is
|
|
created and 1 is returned. The test can also be used alone and always returns
|
|
true. This is typically used as a second ACL in an expression in order to
|
|
mark a connection when a first ACL was verified :
|
|
|
|
acl abuse src_http_req_rate gt 10
|
|
acl kill src_inc_gpc0
|
|
tcp-request connection reject if abuse kill
|
|
|
|
src_kbytes_in <integer>
|
|
src_kbytes_in(table) <integer>
|
|
Returns the amount of data received from the connection's source IPv4 address
|
|
in the current proxy's stick-table or in the designated stick-table, measured
|
|
in kilobytes over the period configured in the table. If the address is not
|
|
found, zero is returned. The test is currently performed on 32-bit integers,
|
|
which limits values to 4 terabytes. See also sc1/sc2_kbytes_in.
|
|
|
|
src_kbytes_out <integer>
|
|
src_kbytes_out(table) <integer>
|
|
Returns the amount of data sent to the connection's source IPv4 address in
|
|
the current proxy's stick-table or in the designated stick-table, measured
|
|
in kilobytes over the period configured in the table. If the address is not
|
|
found, zero is returned. The test is currently performed on 32-bit integers,
|
|
which limits values to 4 terabytes. See also sc1/sc2_kbytes_out.
|
|
|
|
src_port <integer>
|
|
Applies to the client's TCP source port. This has a very limited usage.
|
|
|
|
src_sess_cnt <integer>
|
|
src_sess_cnt(table) <integer>
|
|
Returns the cumulated number of connections initiated from the current
|
|
connection's source IPv4 address in the current proxy's stick-table or in the
|
|
designated stick-table, that were transformed into sessions, which means that
|
|
they were accepted by "tcp-request" rules. If the address is not found, zero
|
|
is returned. See also sc1/sc2_sess_cnt.
|
|
|
|
src_sess_rate <integer>
|
|
src_sess_rate(table) <integer>
|
|
Returns the average session rate from the connection's source IPv4 address in
|
|
the current proxy's stick-table or in the designated stick-table, measured in
|
|
amount of sessions over the period configured in the table. A session is a
|
|
connection that got past the early "tcp-request" rules. If the address is not
|
|
found, zero is returned. See also sc1/sc2_sess_rate.
|
|
|
|
src_updt_conn_cnt <integer>
|
|
src_updt_conn_cnt(table) <integer>
|
|
Creates or updates the entry associated to the source IPv4 address in the
|
|
current proxy's stick-table or in the designated stick-table. This table
|
|
must be configured to store the "conn_cnt" data type, otherwise the match
|
|
will be ignored. The current count is incremented by one, and the expiration
|
|
timer refreshed. The updated count is returned, so this match can't return
|
|
zero. This is used to reject service abusers based on their source address.
|
|
Note: it is recommended to use the more complete "track-counters" instead.
|
|
|
|
Example :
|
|
# This frontend limits incoming SSH connections to 3 per 10 second for
|
|
# each source address, and rejects excess connections until a 10 second
|
|
# silence is observed. At most 20 addresses are tracked.
|
|
listen ssh
|
|
bind :22
|
|
mode tcp
|
|
maxconn 100
|
|
stick-table type ip size 20 expire 10s store conn_cnt
|
|
tcp-request content reject if { src_update_count gt 3 }
|
|
server local 127.0.0.1:22
|
|
|
|
srv_id <integer>
|
|
Applies to the server's id. Can be used in frontends or backends.
|
|
|
|
srv_is_up(<server>)
|
|
srv_is_up(<backend>/<server>)
|
|
Returns true when the designated server is UP, and false when it is either
|
|
DOWN or in maintenance mode. If <backend> is omitted, then the server is
|
|
looked up in the current backend. The function takes no arguments since it
|
|
is used as a boolean. It is mainly used to take action based on an external
|
|
status reported via a health check (eg: a geographical site's availability).
|
|
Another possible use which is more of a hack consists in using dummy servers
|
|
as boolean variables that can be enabled or disabled from the CLI, so that
|
|
rules depending on those ACLs can be tweaked in realtime.
|
|
|
|
table_avl <integer>
|
|
table_avl(table) <integer>
|
|
Returns the total number of available entries in the current proxy's
|
|
stick-table or in the designated stick-table. See also table_cnt.
|
|
|
|
table_cnt <integer>
|
|
table_cnt(table) <integer>
|
|
Returns the total number of entries currently in use in the current proxy's
|
|
stick-table or in the designated stick-table. See also src_conn_cnt and
|
|
table_avl for other entry counting methods.
|
|
|
|
|
|
7.5.2. Matching contents at Layer 4 (also called Layer 6)
|
|
---------------------------------------------------------
|
|
|
|
A second set of criteria depends on data found in buffers, but which can change
|
|
during analysis. This requires that some data has been buffered, for instance
|
|
through TCP request content inspection. Please see the "tcp-request content"
|
|
keyword for more detailed information on the subject.
|
|
|
|
req_len <integer>
|
|
Returns true when the length of the data in the request buffer matches the
|
|
specified range. It is important to understand that this test does not
|
|
return false as long as the buffer is changing. This means that a check with
|
|
equality to zero will almost always immediately match at the beginning of the
|
|
session, while a test for more data will wait for that data to come in and
|
|
return false only when haproxy is certain that no more data will come in.
|
|
This test was designed to be used with TCP request content inspection.
|
|
|
|
req_proto_http
|
|
Returns true when data in the request buffer look like HTTP and correctly
|
|
parses as such. It is the same parser as the common HTTP request parser which
|
|
is used so there should be no surprises. This test can be used for instance
|
|
to direct HTTP traffic to a given port and HTTPS traffic to another one
|
|
using TCP request content inspection rules.
|
|
|
|
req_rdp_cookie <string>
|
|
req_rdp_cookie(name) <string>
|
|
Returns true when data in the request buffer look like the RDP protocol, and
|
|
a cookie is present and equal to <string>. By default, any cookie name is
|
|
checked, but a specific cookie name can be specified in parenthesis. The
|
|
parser only checks for the first cookie, as illustrated in the RDP protocol
|
|
specification. The cookie name is case insensitive. This ACL can be useful
|
|
with the "MSTS" cookie, as it can contain the user name of the client
|
|
connecting to the server if properly configured on the client. This can be
|
|
used to restrict access to certain servers to certain users.
|
|
|
|
req_rdp_cookie_cnt <integer>
|
|
req_rdp_cookie_cnt(name) <integer>
|
|
Returns true when the data in the request buffer look like the RDP protocol
|
|
and the number of RDP cookies matches the specified range (typically zero or
|
|
one). Optionally a specific cookie name can be checked. This is a simple way
|
|
of detecting the RDP protocol, as clients generally send the MSTS or MSTSHASH
|
|
cookies.
|
|
|
|
req_ssl_ver <decimal>
|
|
Returns true when data in the request buffer look like SSL, with a protocol
|
|
version matching the specified range. Both SSLv2 hello messages and SSLv3
|
|
messages are supported. The test tries to be strict enough to avoid being
|
|
easily fooled. In particular, it waits for as many bytes as announced in the
|
|
message header if this header looks valid (bound to the buffer size). Note
|
|
that TLSv1 is announced as SSL version 3.1. This test was designed to be used
|
|
with TCP request content inspection.
|
|
|
|
req_ssl_hello_type <integer>
|
|
Returns true when data in the request buffer looks like a complete SSL (v3
|
|
or superior) hello message and handshake type is equal to <integer>.
|
|
This test was designed to be used with TCP request content inspection: an
|
|
SSL session ID may be fetched.
|
|
|
|
rep_ssl_hello_type <integer>
|
|
Returns true when data in the response buffer looks like a complete SSL (v3
|
|
or superior) hello message and handshake type is equal to <integer>.
|
|
This test was designed to be used with TCP response content inspection: a
|
|
SSL session ID may be fetched.
|
|
|
|
wait_end
|
|
Waits for the end of the analysis period to return true. This may be used in
|
|
conjunction with content analysis to avoid returning a wrong verdict early.
|
|
It may also be used to delay some actions, such as a delayed reject for some
|
|
special addresses. Since it either stops the rules evaluation or immediately
|
|
returns true, it is recommended to use this acl as the last one in a rule.
|
|
Please note that the default ACL "WAIT_END" is always usable without prior
|
|
declaration. This test was designed to be used with TCP request content
|
|
inspection.
|
|
|
|
Examples :
|
|
# delay every incoming request by 2 seconds
|
|
tcp-request inspect-delay 2s
|
|
tcp-request content accept if WAIT_END
|
|
|
|
# don't immediately tell bad guys they are rejected
|
|
tcp-request inspect-delay 10s
|
|
acl goodguys src 10.0.0.0/24
|
|
acl badguys src 10.0.1.0/24
|
|
tcp-request content accept if goodguys
|
|
tcp-request content reject if badguys WAIT_END
|
|
tcp-request content reject
|
|
|
|
|
|
7.5.3. Matching at Layer 7
|
|
--------------------------
|
|
|
|
A third set of criteria applies to information which can be found at the
|
|
application layer (layer 7). Those require that a full HTTP request has been
|
|
read, and are only evaluated then. They may require slightly more CPU resources
|
|
than the layer 4 ones, but not much since the request and response are indexed.
|
|
|
|
hdr <string>
|
|
hdr(header) <string>
|
|
Note: all the "hdr*" matching criteria either apply to all headers, or to a
|
|
particular header whose name is passed between parenthesis and without any
|
|
space. The header name is not case-sensitive. The header matching complies
|
|
with RFC2616, and treats as separate headers all values delimited by commas.
|
|
Use the shdr() variant for response headers sent by the server.
|
|
|
|
The "hdr" criteria returns true if any of the headers matching the criteria
|
|
match any of the strings. This can be used to check exact for values. For
|
|
instance, checking that "connection: close" is set :
|
|
|
|
hdr(Connection) -i close
|
|
|
|
hdr_beg <string>
|
|
hdr_beg(header) <string>
|
|
Returns true when one of the headers begins with one of the strings. See
|
|
"hdr" for more information on header matching. Use the shdr_beg() variant for
|
|
response headers sent by the server.
|
|
|
|
hdr_cnt <integer>
|
|
hdr_cnt(header) <integer>
|
|
Returns true when the number of occurrence of the specified header matches
|
|
the values or ranges specified. It is important to remember that one header
|
|
line may count as several headers if it has several values. This is used to
|
|
detect presence, absence or abuse of a specific header, as well as to block
|
|
request smuggling attacks by rejecting requests which contain more than one
|
|
of certain headers. See "hdr" for more information on header matching. Use
|
|
the shdr_cnt() variant for response headers sent by the server.
|
|
|
|
hdr_dir <string>
|
|
hdr_dir(header) <string>
|
|
Returns true when one of the headers contains one of the strings either
|
|
isolated or delimited by slashes. This is used to perform filename or
|
|
directory name matching, and may be used with Referer. See "hdr" for more
|
|
information on header matching. Use the shdr_dir() variant for response
|
|
headers sent by the server.
|
|
|
|
hdr_dom <string>
|
|
hdr_dom(header) <string>
|
|
Returns true when one of the headers contains one of the strings either
|
|
isolated or delimited by dots. This is used to perform domain name matching,
|
|
and may be used with the Host header. See "hdr" for more information on
|
|
header matching. Use the shdr_dom() variant for response headers sent by the
|
|
server.
|
|
|
|
hdr_end <string>
|
|
hdr_end(header) <string>
|
|
Returns true when one of the headers ends with one of the strings. See "hdr"
|
|
for more information on header matching. Use the shdr_end() variant for
|
|
response headers sent by the server.
|
|
|
|
hdr_ip <ip_address>
|
|
hdr_ip(header) <ip_address>
|
|
Returns true when one of the headers' values contains an IP address matching
|
|
<ip_address>. This is mainly used with headers such as X-Forwarded-For or
|
|
X-Client-IP. See "hdr" for more information on header matching. Use the
|
|
shdr_ip() variant for response headers sent by the server.
|
|
|
|
hdr_reg <regex>
|
|
hdr_reg(header) <regex>
|
|
Returns true when one of the headers matches of the regular expressions. It
|
|
can be used at any time, but it is important to remember that regex matching
|
|
is slower than other methods. See also other "hdr_" criteria, as well as
|
|
"hdr" for more information on header matching. Use the shdr_reg() variant for
|
|
response headers sent by the server.
|
|
|
|
hdr_sub <string>
|
|
hdr_sub(header) <string>
|
|
Returns true when one of the headers contains one of the strings. See "hdr"
|
|
for more information on header matching. Use the shdr_sub() variant for
|
|
response headers sent by the server.
|
|
|
|
hdr_val <integer>
|
|
hdr_val(header) <integer>
|
|
Returns true when one of the headers starts with a number which matches the
|
|
values or ranges specified. This may be used to limit content-length to
|
|
acceptable values for example. See "hdr" for more information on header
|
|
matching. Use the shdr_val() variant for response headers sent by the server.
|
|
|
|
http_auth(userlist)
|
|
http_auth_group(userlist) <group> [<group>]*
|
|
Returns true when authentication data received from the client matches
|
|
username & password stored on the userlist. It is also possible to
|
|
use http_auth_group to check if the user is assigned to at least one
|
|
of specified groups.
|
|
|
|
Currently only http basic auth is supported.
|
|
|
|
http_req_first
|
|
Returns true when the request being processed is the first one of the
|
|
connection. This can be used to add or remove headers that may be missing
|
|
from some requests when a request is not the first one, or even to perform
|
|
some specific ACL checks only on the first request.
|
|
|
|
method <string>
|
|
Applies to the method in the HTTP request, eg: "GET". Some predefined ACL
|
|
already check for most common methods.
|
|
|
|
path <string>
|
|
Returns true when the path part of the request, which starts at the first
|
|
slash and ends before the question mark, equals one of the strings. It may be
|
|
used to match known files, such as /favicon.ico.
|
|
|
|
path_beg <string>
|
|
Returns true when the path begins with one of the strings. This can be used
|
|
to send certain directory names to alternative backends.
|
|
|
|
path_dir <string>
|
|
Returns true when one of the strings is found isolated or delimited with
|
|
slashes in the path. This is used to perform filename or directory name
|
|
matching without the risk of wrong match due to colliding prefixes. See also
|
|
"url_dir" and "path_sub".
|
|
|
|
path_dom <string>
|
|
Returns true when one of the strings is found isolated or delimited with dots
|
|
in the path. This may be used to perform domain name matching in proxy
|
|
requests. See also "path_sub" and "url_dom".
|
|
|
|
path_end <string>
|
|
Returns true when the path ends with one of the strings. This may be used to
|
|
control file name extension.
|
|
|
|
path_reg <regex>
|
|
Returns true when the path matches one of the regular expressions. It can be
|
|
used any time, but it is important to remember that regex matching is slower
|
|
than other methods. See also "url_reg" and all "path_" criteria.
|
|
|
|
path_sub <string>
|
|
Returns true when the path contains one of the strings. It can be used to
|
|
detect particular patterns in paths, such as "../" for example. See also
|
|
"path_dir".
|
|
|
|
req_ver <string>
|
|
Applies to the version string in the HTTP request, eg: "1.0". Some predefined
|
|
ACL already check for versions 1.0 and 1.1.
|
|
|
|
status <integer>
|
|
Applies to the HTTP status code in the HTTP response, eg: "302". It can be
|
|
used to act on responses depending on status ranges, for instance, remove
|
|
any Location header if the response is not a 3xx.
|
|
|
|
url <string>
|
|
Applies to the whole URL passed in the request. The only real use is to match
|
|
"*", for which there already is a predefined ACL.
|
|
|
|
url_beg <string>
|
|
Returns true when the URL begins with one of the strings. This can be used to
|
|
check whether a URL begins with a slash or with a protocol scheme.
|
|
|
|
url_dir <string>
|
|
Returns true when one of the strings is found isolated or delimited with
|
|
slashes in the URL. This is used to perform filename or directory name
|
|
matching without the risk of wrong match due to colliding prefixes. See also
|
|
"path_dir" and "url_sub".
|
|
|
|
url_dom <string>
|
|
Returns true when one of the strings is found isolated or delimited with dots
|
|
in the URL. This is used to perform domain name matching without the risk of
|
|
wrong match due to colliding prefixes. See also "url_sub".
|
|
|
|
url_end <string>
|
|
Returns true when the URL ends with one of the strings. It has very limited
|
|
use. "path_end" should be used instead for filename matching.
|
|
|
|
url_ip <ip_address>
|
|
Applies to the IP address specified in the absolute URI in an HTTP request.
|
|
It can be used to prevent access to certain resources such as local network.
|
|
It is useful with option "http_proxy".
|
|
|
|
url_port <integer>
|
|
Applies to the port specified in the absolute URI in an HTTP request. It can
|
|
be used to prevent access to certain resources. It is useful with option
|
|
"http_proxy". Note that if the port is not specified in the request, port 80
|
|
is assumed.
|
|
|
|
url_reg <regex>
|
|
Returns true when the URL matches one of the regular expressions. It can be
|
|
used any time, but it is important to remember that regex matching is slower
|
|
than other methods. See also "path_reg" and all "url_" criteria.
|
|
|
|
url_sub <string>
|
|
Returns true when the URL contains one of the strings. It can be used to
|
|
detect particular patterns in query strings for example. See also "path_sub".
|
|
|
|
|
|
7.6. Pre-defined ACLs
|
|
---------------------
|
|
|
|
Some predefined ACLs are hard-coded so that they do not have to be declared in
|
|
every frontend which needs them. They all have their names in upper case in
|
|
order to avoid confusion. Their equivalence is provided below.
|
|
|
|
ACL name Equivalent to Usage
|
|
---------------+-----------------------------+---------------------------------
|
|
FALSE always_false never match
|
|
HTTP req_proto_http match if protocol is valid HTTP
|
|
HTTP_1.0 req_ver 1.0 match HTTP version 1.0
|
|
HTTP_1.1 req_ver 1.1 match HTTP version 1.1
|
|
HTTP_CONTENT hdr_val(content-length) gt 0 match an existing content-length
|
|
HTTP_URL_ABS url_reg ^[^/:]*:// match absolute URL with scheme
|
|
HTTP_URL_SLASH url_beg / match URL beginning with "/"
|
|
HTTP_URL_STAR url * match URL equal to "*"
|
|
LOCALHOST src 127.0.0.1/8 match connection from local host
|
|
METH_CONNECT method CONNECT match HTTP CONNECT method
|
|
METH_GET method GET HEAD match HTTP GET or HEAD method
|
|
METH_HEAD method HEAD match HTTP HEAD method
|
|
METH_OPTIONS method OPTIONS match HTTP OPTIONS method
|
|
METH_POST method POST match HTTP POST method
|
|
METH_TRACE method TRACE match HTTP TRACE method
|
|
RDP_COOKIE req_rdp_cookie_cnt gt 0 match presence of an RDP cookie
|
|
REQ_CONTENT req_len gt 0 match data in the request buffer
|
|
TRUE always_true always match
|
|
WAIT_END wait_end wait for end of content analysis
|
|
---------------+-----------------------------+---------------------------------
|
|
|
|
|
|
7.7. Using ACLs to form conditions
|
|
----------------------------------
|
|
|
|
Some actions are only performed upon a valid condition. A condition is a
|
|
combination of ACLs with operators. 3 operators are supported :
|
|
|
|
- AND (implicit)
|
|
- OR (explicit with the "or" keyword or the "||" operator)
|
|
- Negation with the exclamation mark ("!")
|
|
|
|
A condition is formed as a disjunctive form:
|
|
|
|
[!]acl1 [!]acl2 ... [!]acln { or [!]acl1 [!]acl2 ... [!]acln } ...
|
|
|
|
Such conditions are generally used after an "if" or "unless" statement,
|
|
indicating when the condition will trigger the action.
|
|
|
|
For instance, to block HTTP requests to the "*" URL with methods other than
|
|
"OPTIONS", as well as POST requests without content-length, and GET or HEAD
|
|
requests with a content-length greater than 0, and finally every request which
|
|
is not either GET/HEAD/POST/OPTIONS !
|
|
|
|
acl missing_cl hdr_cnt(Content-length) eq 0
|
|
block if HTTP_URL_STAR !METH_OPTIONS || METH_POST missing_cl
|
|
block if METH_GET HTTP_CONTENT
|
|
block unless METH_GET or METH_POST or METH_OPTIONS
|
|
|
|
To select a different backend for requests to static contents on the "www" site
|
|
and to every request on the "img", "video", "download" and "ftp" hosts :
|
|
|
|
acl url_static path_beg /static /images /img /css
|
|
acl url_static path_end .gif .png .jpg .css .js
|
|
acl host_www hdr_beg(host) -i www
|
|
acl host_static hdr_beg(host) -i img. video. download. ftp.
|
|
|
|
# now use backend "static" for all static-only hosts, and for static urls
|
|
# of host "www". Use backend "www" for the rest.
|
|
use_backend static if host_static or host_www url_static
|
|
use_backend www if host_www
|
|
|
|
It is also possible to form rules using "anonymous ACLs". Those are unnamed ACL
|
|
expressions that are built on the fly without needing to be declared. They must
|
|
be enclosed between braces, with a space before and after each brace (because
|
|
the braces must be seen as independant words). Example :
|
|
|
|
The following rule :
|
|
|
|
acl missing_cl hdr_cnt(Content-length) eq 0
|
|
block if METH_POST missing_cl
|
|
|
|
Can also be written that way :
|
|
|
|
block if METH_POST { hdr_cnt(Content-length) eq 0 }
|
|
|
|
It is generally not recommended to use this construct because it's a lot easier
|
|
to leave errors in the configuration when written that way. However, for very
|
|
simple rules matching only one source IP address for instance, it can make more
|
|
sense to use them than to declare ACLs with random names. Another example of
|
|
good use is the following :
|
|
|
|
With named ACLs :
|
|
|
|
acl site_dead nbsrv(dynamic) lt 2
|
|
acl site_dead nbsrv(static) lt 2
|
|
monitor fail if site_dead
|
|
|
|
With anonymous ACLs :
|
|
|
|
monitor fail if { nbsrv(dynamic) lt 2 } || { nbsrv(static) lt 2 }
|
|
|
|
See section 4.2 for detailed help on the "block" and "use_backend" keywords.
|
|
|
|
|
|
7.8. Pattern extraction
|
|
-----------------------
|
|
|
|
The stickiness features relies on pattern extraction in the request and
|
|
response. Sometimes the data needs to be converted first before being stored,
|
|
for instance converted from ASCII to IP or upper case to lower case.
|
|
|
|
All these operations of data extraction and conversion are defined as
|
|
"pattern extraction rules". A pattern rule always has the same format. It
|
|
begins with a single pattern fetch word, potentially followed by a list of
|
|
arguments within parenthesis then an optional list of transformations. As
|
|
much as possible, the pattern fetch functions use the same name as their
|
|
equivalent used in ACLs.
|
|
|
|
The list of currently supported pattern fetch functions is the following :
|
|
|
|
src This is the source IPv4 address of the client of the session.
|
|
It is of type IPv4 and works on both IPv4 and IPv6 tables.
|
|
On IPv6 tables, IPv4 address is mapped to its IPv6 equivalent,
|
|
according to RFC 4291.
|
|
|
|
src6 This is the source IPv6 address of the client of the session.
|
|
It is of type IPv6 and only works with such tables.
|
|
|
|
dst This is the destination IPv4 address of the session on the
|
|
client side, which is the address the client connected to.
|
|
It can be useful when running in transparent mode. It is of
|
|
type IPv4 and works on both IPv4 and IPv6 tables.
|
|
On IPv6 tables, IPv4 address is mapped to its IPv6 equivalent,
|
|
according to RFC 4291.
|
|
|
|
dst6 This is the destination IPv6 address of the session on the
|
|
client side, which is the address the client connected to.
|
|
It can be useful when running in transparent mode. It is of
|
|
type IPv6 and only works with such tables.
|
|
|
|
dst_port This is the destination TCP port of the session on the client
|
|
side, which is the port the client connected to. This might be
|
|
used when running in transparent mode or when assigning dynamic
|
|
ports to some clients for a whole application session. It is of
|
|
type integer and only works with such tables.
|
|
|
|
hdr(name) This extracts the last occurrence of header <name> in an HTTP
|
|
request and converts it to an IP address. This IP address is
|
|
then used to match the table. A typical use is with the
|
|
x-forwarded-for header.
|
|
|
|
payload(offset,length)
|
|
This extracts a binary block of <length> bytes, and starting
|
|
at bytes <offset> in the buffer of request or response (request
|
|
on "stick on" or "stick match" or response in on "stick store
|
|
response").
|
|
|
|
payload_lv(offset1,length[,offset2])
|
|
This extracts a binary block. In a first step the size of the
|
|
block is read from response or request buffer at <offset>
|
|
bytes and considered coded on <length> bytes. In a second step
|
|
data of the block are read from buffer at <offset2> bytes
|
|
(by default <lengthoffset> + <lengthsize>).
|
|
If <offset2> is prefixed by '+' or '-', it is relative to
|
|
<lengthoffset> + <lengthsize> else it is absolute.
|
|
Ex: see SSL session id example in "stick table" chapter.
|
|
|
|
url_param(name)
|
|
This extracts the first occurrence of the parameter <name> in
|
|
the query string of the request and uses the corresponding value
|
|
to match. A typical use is to get sticky session through url (e.g.
|
|
http://example.com/foo?JESSIONID=some_id with
|
|
url_param(JSESSIONID)), for cases where cookies cannot be used.
|
|
|
|
The currently available list of transformations include :
|
|
|
|
lower Convert a string pattern to lower case. This can only be placed
|
|
after a string pattern fetch function or after a conversion
|
|
function returning a string type. The result is of type string.
|
|
|
|
upper Convert a string pattern to upper case. This can only be placed
|
|
after a string pattern fetch function or after a conversion
|
|
function returning a string type. The result is of type string.
|
|
|
|
ipmask(mask) Apply a mask to an IPv4 address, and use the result for lookups
|
|
and storage. This can be used to make all hosts within a
|
|
certain mask to share the same table entries and as such use
|
|
the same server. The mask can be passed in dotted form (eg:
|
|
255.255.255.0) or in CIDR form (eg: 24).
|
|
|
|
|
|
8. Logging
|
|
----------
|
|
|
|
One of HAProxy's strong points certainly lies is its precise logs. It probably
|
|
provides the finest level of information available for such a product, which is
|
|
very important for troubleshooting complex environments. Standard information
|
|
provided in logs include client ports, TCP/HTTP state timers, precise session
|
|
state at termination and precise termination cause, information about decisions
|
|
to direct traffic to a server, and of course the ability to capture arbitrary
|
|
headers.
|
|
|
|
In order to improve administrators reactivity, it offers a great transparency
|
|
about encountered problems, both internal and external, and it is possible to
|
|
send logs to different sources at the same time with different level filters :
|
|
|
|
- global process-level logs (system errors, start/stop, etc..)
|
|
- per-instance system and internal errors (lack of resource, bugs, ...)
|
|
- per-instance external troubles (servers up/down, max connections)
|
|
- per-instance activity (client connections), either at the establishment or
|
|
at the termination.
|
|
|
|
The ability to distribute different levels of logs to different log servers
|
|
allow several production teams to interact and to fix their problems as soon
|
|
as possible. For example, the system team might monitor system-wide errors,
|
|
while the application team might be monitoring the up/down for their servers in
|
|
real time, and the security team might analyze the activity logs with one hour
|
|
delay.
|
|
|
|
|
|
8.1. Log levels
|
|
---------------
|
|
|
|
TCP and HTTP connections can be logged with information such as the date, time,
|
|
source IP address, destination address, connection duration, response times,
|
|
HTTP request, HTTP return code, number of bytes transmitted, conditions
|
|
in which the session ended, and even exchanged cookies values. For example
|
|
track a particular user's problems. All messages may be sent to up to two
|
|
syslog servers. Check the "log" keyword in section 4.2 for more information
|
|
about log facilities.
|
|
|
|
|
|
8.2. Log formats
|
|
----------------
|
|
|
|
HAProxy supports 4 log formats. Several fields are common between these formats
|
|
and will be detailed in the following sections. A few of them may vary
|
|
slightly with the configuration, due to indicators specific to certain
|
|
options. The supported formats are as follows :
|
|
|
|
- the default format, which is very basic and very rarely used. It only
|
|
provides very basic information about the incoming connection at the moment
|
|
it is accepted : source IP:port, destination IP:port, and frontend-name.
|
|
This mode will eventually disappear so it will not be described to great
|
|
extents.
|
|
|
|
- the TCP format, which is more advanced. This format is enabled when "option
|
|
tcplog" is set on the frontend. HAProxy will then usually wait for the
|
|
connection to terminate before logging. This format provides much richer
|
|
information, such as timers, connection counts, queue size, etc... This
|
|
format is recommended for pure TCP proxies.
|
|
|
|
- the HTTP format, which is the most advanced for HTTP proxying. This format
|
|
is enabled when "option httplog" is set on the frontend. It provides the
|
|
same information as the TCP format with some HTTP-specific fields such as
|
|
the request, the status code, and captures of headers and cookies. This
|
|
format is recommended for HTTP proxies.
|
|
|
|
- the CLF HTTP format, which is equivalent to the HTTP format, but with the
|
|
fields arranged in the same order as the CLF format. In this mode, all
|
|
timers, captures, flags, etc... appear one per field after the end of the
|
|
common fields, in the same order they appear in the standard HTTP format.
|
|
|
|
Next sections will go deeper into details for each of these formats. Format
|
|
specification will be performed on a "field" basis. Unless stated otherwise, a
|
|
field is a portion of text delimited by any number of spaces. Since syslog
|
|
servers are susceptible of inserting fields at the beginning of a line, it is
|
|
always assumed that the first field is the one containing the process name and
|
|
identifier.
|
|
|
|
Note : Since log lines may be quite long, the log examples in sections below
|
|
might be broken into multiple lines. The example log lines will be
|
|
prefixed with 3 closing angle brackets ('>>>') and each time a log is
|
|
broken into multiple lines, each non-final line will end with a
|
|
backslash ('\') and the next line will start indented by two characters.
|
|
|
|
|
|
8.2.1. Default log format
|
|
-------------------------
|
|
|
|
This format is used when no specific option is set. The log is emitted as soon
|
|
as the connection is accepted. One should note that this currently is the only
|
|
format which logs the request's destination IP and ports.
|
|
|
|
Example :
|
|
listen www
|
|
mode http
|
|
log global
|
|
server srv1 127.0.0.1:8000
|
|
|
|
>>> Feb 6 12:12:09 localhost \
|
|
haproxy[14385]: Connect from 10.0.1.2:33312 to 10.0.3.31:8012 \
|
|
(www/HTTP)
|
|
|
|
Field Format Extract from the example above
|
|
1 process_name '[' pid ']:' haproxy[14385]:
|
|
2 'Connect from' Connect from
|
|
3 source_ip ':' source_port 10.0.1.2:33312
|
|
4 'to' to
|
|
5 destination_ip ':' destination_port 10.0.3.31:8012
|
|
6 '(' frontend_name '/' mode ')' (www/HTTP)
|
|
|
|
Detailed fields description :
|
|
- "source_ip" is the IP address of the client which initiated the connection.
|
|
- "source_port" is the TCP port of the client which initiated the connection.
|
|
- "destination_ip" is the IP address the client connected to.
|
|
- "destination_port" is the TCP port the client connected to.
|
|
- "frontend_name" is the name of the frontend (or listener) which received
|
|
and processed the connection.
|
|
- "mode is the mode the frontend is operating (TCP or HTTP).
|
|
|
|
In case of a UNIX socket, the source and destination addresses are marked as
|
|
"unix:" and the ports reflect the internal ID of the socket which accepted the
|
|
connection (the same ID as reported in the stats).
|
|
|
|
It is advised not to use this deprecated format for newer installations as it
|
|
will eventually disappear.
|
|
|
|
|
|
8.2.2. TCP log format
|
|
---------------------
|
|
|
|
The TCP format is used when "option tcplog" is specified in the frontend, and
|
|
is the recommended format for pure TCP proxies. It provides a lot of precious
|
|
information for troubleshooting. Since this format includes timers and byte
|
|
counts, the log is normally emitted at the end of the session. It can be
|
|
emitted earlier if "option logasap" is specified, which makes sense in most
|
|
environments with long sessions such as remote terminals. Sessions which match
|
|
the "monitor" rules are never logged. It is also possible not to emit logs for
|
|
sessions for which no data were exchanged between the client and the server, by
|
|
specifying "option dontlognull" in the frontend. Successful connections will
|
|
not be logged if "option dontlog-normal" is specified in the frontend. A few
|
|
fields may slightly vary depending on some configuration options, those are
|
|
marked with a star ('*') after the field name below.
|
|
|
|
Example :
|
|
frontend fnt
|
|
mode tcp
|
|
option tcplog
|
|
log global
|
|
default_backend bck
|
|
|
|
backend bck
|
|
server srv1 127.0.0.1:8000
|
|
|
|
>>> Feb 6 12:12:56 localhost \
|
|
haproxy[14387]: 10.0.1.2:33313 [06/Feb/2009:12:12:51.443] fnt \
|
|
bck/srv1 0/0/5007 212 -- 0/0/0/0/3 0/0
|
|
|
|
Field Format Extract from the example above
|
|
1 process_name '[' pid ']:' haproxy[14387]:
|
|
2 client_ip ':' client_port 10.0.1.2:33313
|
|
3 '[' accept_date ']' [06/Feb/2009:12:12:51.443]
|
|
4 frontend_name fnt
|
|
5 backend_name '/' server_name bck/srv1
|
|
6 Tw '/' Tc '/' Tt* 0/0/5007
|
|
7 bytes_read* 212
|
|
8 termination_state --
|
|
9 actconn '/' feconn '/' beconn '/' srv_conn '/' retries* 0/0/0/0/3
|
|
10 srv_queue '/' backend_queue 0/0
|
|
|
|
Detailed fields description :
|
|
- "client_ip" is the IP address of the client which initiated the TCP
|
|
connection to haproxy. If the connection was accepted on a UNIX socket
|
|
instead, the IP address would be replaced with the word "unix". Note that
|
|
when the connection is accepted on a socket configured with "accept-proxy"
|
|
and the PROXY protocol is correctly used, then the logs will reflect the
|
|
forwarded connection's information.
|
|
|
|
- "client_port" is the TCP port of the client which initiated the connection.
|
|
If the connection was accepted on a UNIX socket instead, the port would be
|
|
replaced with the ID of the accepting socket, which is also reported in the
|
|
stats interface.
|
|
|
|
- "accept_date" is the exact date when the connection was received by haproxy
|
|
(which might be very slightly different from the date observed on the
|
|
network if there was some queuing in the system's backlog). This is usually
|
|
the same date which may appear in any upstream firewall's log.
|
|
|
|
- "frontend_name" is the name of the frontend (or listener) which received
|
|
and processed the connection.
|
|
|
|
- "backend_name" is the name of the backend (or listener) which was selected
|
|
to manage the connection to the server. This will be the same as the
|
|
frontend if no switching rule has been applied, which is common for TCP
|
|
applications.
|
|
|
|
- "server_name" is the name of the last server to which the connection was
|
|
sent, which might differ from the first one if there were connection errors
|
|
and a redispatch occurred. Note that this server belongs to the backend
|
|
which processed the request. If the connection was aborted before reaching
|
|
a server, "<NOSRV>" is indicated instead of a server name.
|
|
|
|
- "Tw" is the total time in milliseconds spent waiting in the various queues.
|
|
It can be "-1" if the connection was aborted before reaching the queue.
|
|
See "Timers" below for more details.
|
|
|
|
- "Tc" is the total time in milliseconds spent waiting for the connection to
|
|
establish to the final server, including retries. It can be "-1" if the
|
|
connection was aborted before a connection could be established. See
|
|
"Timers" below for more details.
|
|
|
|
- "Tt" is the total time in milliseconds elapsed between the accept and the
|
|
last close. It covers all possible processings. There is one exception, if
|
|
"option logasap" was specified, then the time counting stops at the moment
|
|
the log is emitted. In this case, a '+' sign is prepended before the value,
|
|
indicating that the final one will be larger. See "Timers" below for more
|
|
details.
|
|
|
|
- "bytes_read" is the total number of bytes transmitted from the server to
|
|
the client when the log is emitted. If "option logasap" is specified, the
|
|
this value will be prefixed with a '+' sign indicating that the final one
|
|
may be larger. Please note that this value is a 64-bit counter, so log
|
|
analysis tools must be able to handle it without overflowing.
|
|
|
|
- "termination_state" is the condition the session was in when the session
|
|
ended. This indicates the session state, which side caused the end of
|
|
session to happen, and for what reason (timeout, error, ...). The normal
|
|
flags should be "--", indicating the session was closed by either end with
|
|
no data remaining in buffers. See below "Session state at disconnection"
|
|
for more details.
|
|
|
|
- "actconn" is the total number of concurrent connections on the process when
|
|
the session was logged. It it useful to detect when some per-process system
|
|
limits have been reached. For instance, if actconn is close to 512 when
|
|
multiple connection errors occur, chances are high that the system limits
|
|
the process to use a maximum of 1024 file descriptors and that all of them
|
|
are used. See section 3 "Global parameters" to find how to tune the system.
|
|
|
|
- "feconn" is the total number of concurrent connections on the frontend when
|
|
the session was logged. It is useful to estimate the amount of resource
|
|
required to sustain high loads, and to detect when the frontend's "maxconn"
|
|
has been reached. Most often when this value increases by huge jumps, it is
|
|
because there is congestion on the backend servers, but sometimes it can be
|
|
caused by a denial of service attack.
|
|
|
|
- "beconn" is the total number of concurrent connections handled by the
|
|
backend when the session was logged. It includes the total number of
|
|
concurrent connections active on servers as well as the number of
|
|
connections pending in queues. It is useful to estimate the amount of
|
|
additional servers needed to support high loads for a given application.
|
|
Most often when this value increases by huge jumps, it is because there is
|
|
congestion on the backend servers, but sometimes it can be caused by a
|
|
denial of service attack.
|
|
|
|
- "srv_conn" is the total number of concurrent connections still active on
|
|
the server when the session was logged. It can never exceed the server's
|
|
configured "maxconn" parameter. If this value is very often close or equal
|
|
to the server's "maxconn", it means that traffic regulation is involved a
|
|
lot, meaning that either the server's maxconn value is too low, or that
|
|
there aren't enough servers to process the load with an optimal response
|
|
time. When only one of the server's "srv_conn" is high, it usually means
|
|
that this server has some trouble causing the connections to take longer to
|
|
be processed than on other servers.
|
|
|
|
- "retries" is the number of connection retries experienced by this session
|
|
when trying to connect to the server. It must normally be zero, unless a
|
|
server is being stopped at the same moment the connection was attempted.
|
|
Frequent retries generally indicate either a network problem between
|
|
haproxy and the server, or a misconfigured system backlog on the server
|
|
preventing new connections from being queued. This field may optionally be
|
|
prefixed with a '+' sign, indicating that the session has experienced a
|
|
redispatch after the maximal retry count has been reached on the initial
|
|
server. In this case, the server name appearing in the log is the one the
|
|
connection was redispatched to, and not the first one, though both may
|
|
sometimes be the same in case of hashing for instance. So as a general rule
|
|
of thumb, when a '+' is present in front of the retry count, this count
|
|
should not be attributed to the logged server.
|
|
|
|
- "srv_queue" is the total number of requests which were processed before
|
|
this one in the server queue. It is zero when the request has not gone
|
|
through the server queue. It makes it possible to estimate the approximate
|
|
server's response time by dividing the time spent in queue by the number of
|
|
requests in the queue. It is worth noting that if a session experiences a
|
|
redispatch and passes through two server queues, their positions will be
|
|
cumulated. A request should not pass through both the server queue and the
|
|
backend queue unless a redispatch occurs.
|
|
|
|
- "backend_queue" is the total number of requests which were processed before
|
|
this one in the backend's global queue. It is zero when the request has not
|
|
gone through the global queue. It makes it possible to estimate the average
|
|
queue length, which easily translates into a number of missing servers when
|
|
divided by a server's "maxconn" parameter. It is worth noting that if a
|
|
session experiences a redispatch, it may pass twice in the backend's queue,
|
|
and then both positions will be cumulated. A request should not pass
|
|
through both the server queue and the backend queue unless a redispatch
|
|
occurs.
|
|
|
|
|
|
8.2.3. HTTP log format
|
|
----------------------
|
|
|
|
The HTTP format is the most complete and the best suited for HTTP proxies. It
|
|
is enabled by when "option httplog" is specified in the frontend. It provides
|
|
the same level of information as the TCP format with additional features which
|
|
are specific to the HTTP protocol. Just like the TCP format, the log is usually
|
|
emitted at the end of the session, unless "option logasap" is specified, which
|
|
generally only makes sense for download sites. A session which matches the
|
|
"monitor" rules will never logged. It is also possible not to log sessions for
|
|
which no data were sent by the client by specifying "option dontlognull" in the
|
|
frontend. Successful connections will not be logged if "option dontlog-normal"
|
|
is specified in the frontend.
|
|
|
|
Most fields are shared with the TCP log, some being different. A few fields may
|
|
slightly vary depending on some configuration options. Those ones are marked
|
|
with a star ('*') after the field name below.
|
|
|
|
Example :
|
|
frontend http-in
|
|
mode http
|
|
option httplog
|
|
log global
|
|
default_backend bck
|
|
|
|
backend static
|
|
server srv1 127.0.0.1:8000
|
|
|
|
>>> Feb 6 12:14:14 localhost \
|
|
haproxy[14389]: 10.0.1.2:33317 [06/Feb/2009:12:14:14.655] http-in \
|
|
static/srv1 10/0/30/69/109 200 2750 - - ---- 1/1/1/1/0 0/0 {1wt.eu} \
|
|
{} "GET /index.html HTTP/1.1"
|
|
|
|
Field Format Extract from the example above
|
|
1 process_name '[' pid ']:' haproxy[14389]:
|
|
2 client_ip ':' client_port 10.0.1.2:33317
|
|
3 '[' accept_date ']' [06/Feb/2009:12:14:14.655]
|
|
4 frontend_name http-in
|
|
5 backend_name '/' server_name static/srv1
|
|
6 Tq '/' Tw '/' Tc '/' Tr '/' Tt* 10/0/30/69/109
|
|
7 status_code 200
|
|
8 bytes_read* 2750
|
|
9 captured_request_cookie -
|
|
10 captured_response_cookie -
|
|
11 termination_state ----
|
|
12 actconn '/' feconn '/' beconn '/' srv_conn '/' retries* 1/1/1/1/0
|
|
13 srv_queue '/' backend_queue 0/0
|
|
14 '{' captured_request_headers* '}' {haproxy.1wt.eu}
|
|
15 '{' captured_response_headers* '}' {}
|
|
16 '"' http_request '"' "GET /index.html HTTP/1.1"
|
|
|
|
|
|
Detailed fields description :
|
|
- "client_ip" is the IP address of the client which initiated the TCP
|
|
connection to haproxy. If the connection was accepted on a UNIX socket
|
|
instead, the IP address would be replaced with the word "unix". Note that
|
|
when the connection is accepted on a socket configured with "accept-proxy"
|
|
and the PROXY protocol is correctly used, then the logs will reflect the
|
|
forwarded connection's information.
|
|
|
|
- "client_port" is the TCP port of the client which initiated the connection.
|
|
If the connection was accepted on a UNIX socket instead, the port would be
|
|
replaced with the ID of the accepting socket, which is also reported in the
|
|
stats interface.
|
|
|
|
- "accept_date" is the exact date when the TCP connection was received by
|
|
haproxy (which might be very slightly different from the date observed on
|
|
the network if there was some queuing in the system's backlog). This is
|
|
usually the same date which may appear in any upstream firewall's log. This
|
|
does not depend on the fact that the client has sent the request or not.
|
|
|
|
- "frontend_name" is the name of the frontend (or listener) which received
|
|
and processed the connection.
|
|
|
|
- "backend_name" is the name of the backend (or listener) which was selected
|
|
to manage the connection to the server. This will be the same as the
|
|
frontend if no switching rule has been applied.
|
|
|
|
- "server_name" is the name of the last server to which the connection was
|
|
sent, which might differ from the first one if there were connection errors
|
|
and a redispatch occurred. Note that this server belongs to the backend
|
|
which processed the request. If the request was aborted before reaching a
|
|
server, "<NOSRV>" is indicated instead of a server name. If the request was
|
|
intercepted by the stats subsystem, "<STATS>" is indicated instead.
|
|
|
|
- "Tq" is the total time in milliseconds spent waiting for the client to send
|
|
a full HTTP request, not counting data. It can be "-1" if the connection
|
|
was aborted before a complete request could be received. It should always
|
|
be very small because a request generally fits in one single packet. Large
|
|
times here generally indicate network trouble between the client and
|
|
haproxy. See "Timers" below for more details.
|
|
|
|
- "Tw" is the total time in milliseconds spent waiting in the various queues.
|
|
It can be "-1" if the connection was aborted before reaching the queue.
|
|
See "Timers" below for more details.
|
|
|
|
- "Tc" is the total time in milliseconds spent waiting for the connection to
|
|
establish to the final server, including retries. It can be "-1" if the
|
|
request was aborted before a connection could be established. See "Timers"
|
|
below for more details.
|
|
|
|
- "Tr" is the total time in milliseconds spent waiting for the server to send
|
|
a full HTTP response, not counting data. It can be "-1" if the request was
|
|
aborted before a complete response could be received. It generally matches
|
|
the server's processing time for the request, though it may be altered by
|
|
the amount of data sent by the client to the server. Large times here on
|
|
"GET" requests generally indicate an overloaded server. See "Timers" below
|
|
for more details.
|
|
|
|
- "Tt" is the total time in milliseconds elapsed between the accept and the
|
|
last close. It covers all possible processings. There is one exception, if
|
|
"option logasap" was specified, then the time counting stops at the moment
|
|
the log is emitted. In this case, a '+' sign is prepended before the value,
|
|
indicating that the final one will be larger. See "Timers" below for more
|
|
details.
|
|
|
|
- "status_code" is the HTTP status code returned to the client. This status
|
|
is generally set by the server, but it might also be set by haproxy when
|
|
the server cannot be reached or when its response is blocked by haproxy.
|
|
|
|
- "bytes_read" is the total number of bytes transmitted to the client when
|
|
the log is emitted. This does include HTTP headers. If "option logasap" is
|
|
specified, the this value will be prefixed with a '+' sign indicating that
|
|
the final one may be larger. Please note that this value is a 64-bit
|
|
counter, so log analysis tools must be able to handle it without
|
|
overflowing.
|
|
|
|
- "captured_request_cookie" is an optional "name=value" entry indicating that
|
|
the client had this cookie in the request. The cookie name and its maximum
|
|
length are defined by the "capture cookie" statement in the frontend
|
|
configuration. The field is a single dash ('-') when the option is not
|
|
set. Only one cookie may be captured, it is generally used to track session
|
|
ID exchanges between a client and a server to detect session crossing
|
|
between clients due to application bugs. For more details, please consult
|
|
the section "Capturing HTTP headers and cookies" below.
|
|
|
|
- "captured_response_cookie" is an optional "name=value" entry indicating
|
|
that the server has returned a cookie with its response. The cookie name
|
|
and its maximum length are defined by the "capture cookie" statement in the
|
|
frontend configuration. The field is a single dash ('-') when the option is
|
|
not set. Only one cookie may be captured, it is generally used to track
|
|
session ID exchanges between a client and a server to detect session
|
|
crossing between clients due to application bugs. For more details, please
|
|
consult the section "Capturing HTTP headers and cookies" below.
|
|
|
|
- "termination_state" is the condition the session was in when the session
|
|
ended. This indicates the session state, which side caused the end of
|
|
session to happen, for what reason (timeout, error, ...), just like in TCP
|
|
logs, and information about persistence operations on cookies in the last
|
|
two characters. The normal flags should begin with "--", indicating the
|
|
session was closed by either end with no data remaining in buffers. See
|
|
below "Session state at disconnection" for more details.
|
|
|
|
- "actconn" is the total number of concurrent connections on the process when
|
|
the session was logged. It it useful to detect when some per-process system
|
|
limits have been reached. For instance, if actconn is close to 512 or 1024
|
|
when multiple connection errors occur, chances are high that the system
|
|
limits the process to use a maximum of 1024 file descriptors and that all
|
|
of them are used. See section 3 "Global parameters" to find how to tune the
|
|
system.
|
|
|
|
- "feconn" is the total number of concurrent connections on the frontend when
|
|
the session was logged. It is useful to estimate the amount of resource
|
|
required to sustain high loads, and to detect when the frontend's "maxconn"
|
|
has been reached. Most often when this value increases by huge jumps, it is
|
|
because there is congestion on the backend servers, but sometimes it can be
|
|
caused by a denial of service attack.
|
|
|
|
- "beconn" is the total number of concurrent connections handled by the
|
|
backend when the session was logged. It includes the total number of
|
|
concurrent connections active on servers as well as the number of
|
|
connections pending in queues. It is useful to estimate the amount of
|
|
additional servers needed to support high loads for a given application.
|
|
Most often when this value increases by huge jumps, it is because there is
|
|
congestion on the backend servers, but sometimes it can be caused by a
|
|
denial of service attack.
|
|
|
|
- "srv_conn" is the total number of concurrent connections still active on
|
|
the server when the session was logged. It can never exceed the server's
|
|
configured "maxconn" parameter. If this value is very often close or equal
|
|
to the server's "maxconn", it means that traffic regulation is involved a
|
|
lot, meaning that either the server's maxconn value is too low, or that
|
|
there aren't enough servers to process the load with an optimal response
|
|
time. When only one of the server's "srv_conn" is high, it usually means
|
|
that this server has some trouble causing the requests to take longer to be
|
|
processed than on other servers.
|
|
|
|
- "retries" is the number of connection retries experienced by this session
|
|
when trying to connect to the server. It must normally be zero, unless a
|
|
server is being stopped at the same moment the connection was attempted.
|
|
Frequent retries generally indicate either a network problem between
|
|
haproxy and the server, or a misconfigured system backlog on the server
|
|
preventing new connections from being queued. This field may optionally be
|
|
prefixed with a '+' sign, indicating that the session has experienced a
|
|
redispatch after the maximal retry count has been reached on the initial
|
|
server. In this case, the server name appearing in the log is the one the
|
|
connection was redispatched to, and not the first one, though both may
|
|
sometimes be the same in case of hashing for instance. So as a general rule
|
|
of thumb, when a '+' is present in front of the retry count, this count
|
|
should not be attributed to the logged server.
|
|
|
|
- "srv_queue" is the total number of requests which were processed before
|
|
this one in the server queue. It is zero when the request has not gone
|
|
through the server queue. It makes it possible to estimate the approximate
|
|
server's response time by dividing the time spent in queue by the number of
|
|
requests in the queue. It is worth noting that if a session experiences a
|
|
redispatch and passes through two server queues, their positions will be
|
|
cumulated. A request should not pass through both the server queue and the
|
|
backend queue unless a redispatch occurs.
|
|
|
|
- "backend_queue" is the total number of requests which were processed before
|
|
this one in the backend's global queue. It is zero when the request has not
|
|
gone through the global queue. It makes it possible to estimate the average
|
|
queue length, which easily translates into a number of missing servers when
|
|
divided by a server's "maxconn" parameter. It is worth noting that if a
|
|
session experiences a redispatch, it may pass twice in the backend's queue,
|
|
and then both positions will be cumulated. A request should not pass
|
|
through both the server queue and the backend queue unless a redispatch
|
|
occurs.
|
|
|
|
- "captured_request_headers" is a list of headers captured in the request due
|
|
to the presence of the "capture request header" statement in the frontend.
|
|
Multiple headers can be captured, they will be delimited by a vertical bar
|
|
('|'). When no capture is enabled, the braces do not appear, causing a
|
|
shift of remaining fields. It is important to note that this field may
|
|
contain spaces, and that using it requires a smarter log parser than when
|
|
it's not used. Please consult the section "Capturing HTTP headers and
|
|
cookies" below for more details.
|
|
|
|
- "captured_response_headers" is a list of headers captured in the response
|
|
due to the presence of the "capture response header" statement in the
|
|
frontend. Multiple headers can be captured, they will be delimited by a
|
|
vertical bar ('|'). When no capture is enabled, the braces do not appear,
|
|
causing a shift of remaining fields. It is important to note that this
|
|
field may contain spaces, and that using it requires a smarter log parser
|
|
than when it's not used. Please consult the section "Capturing HTTP headers
|
|
and cookies" below for more details.
|
|
|
|
- "http_request" is the complete HTTP request line, including the method,
|
|
request and HTTP version string. Non-printable characters are encoded (see
|
|
below the section "Non-printable characters"). This is always the last
|
|
field, and it is always delimited by quotes and is the only one which can
|
|
contain quotes. If new fields are added to the log format, they will be
|
|
added before this field. This field might be truncated if the request is
|
|
huge and does not fit in the standard syslog buffer (1024 characters). This
|
|
is the reason why this field must always remain the last one.
|
|
|
|
|
|
8.3. Advanced logging options
|
|
-----------------------------
|
|
|
|
Some advanced logging options are often looked for but are not easy to find out
|
|
just by looking at the various options. Here is an entry point for the few
|
|
options which can enable better logging. Please refer to the keywords reference
|
|
for more information about their usage.
|
|
|
|
|
|
8.3.1. Disabling logging of external tests
|
|
------------------------------------------
|
|
|
|
It is quite common to have some monitoring tools perform health checks on
|
|
haproxy. Sometimes it will be a layer 3 load-balancer such as LVS or any
|
|
commercial load-balancer, and sometimes it will simply be a more complete
|
|
monitoring system such as Nagios. When the tests are very frequent, users often
|
|
ask how to disable logging for those checks. There are three possibilities :
|
|
|
|
- if connections come from everywhere and are just TCP probes, it is often
|
|
desired to simply disable logging of connections without data exchange, by
|
|
setting "option dontlognull" in the frontend. It also disables logging of
|
|
port scans, which may or may not be desired.
|
|
|
|
- if the connection come from a known source network, use "monitor-net" to
|
|
declare this network as monitoring only. Any host in this network will then
|
|
only be able to perform health checks, and their requests will not be
|
|
logged. This is generally appropriate to designate a list of equipments
|
|
such as other load-balancers.
|
|
|
|
- if the tests are performed on a known URI, use "monitor-uri" to declare
|
|
this URI as dedicated to monitoring. Any host sending this request will
|
|
only get the result of a health-check, and the request will not be logged.
|
|
|
|
|
|
8.3.2. Logging before waiting for the session to terminate
|
|
----------------------------------------------------------
|
|
|
|
The problem with logging at end of connection is that you have no clue about
|
|
what is happening during very long sessions, such as remote terminal sessions
|
|
or large file downloads. This problem can be worked around by specifying
|
|
"option logasap" in the frontend. Haproxy will then log as soon as possible,
|
|
just before data transfer begins. This means that in case of TCP, it will still
|
|
log the connection status to the server, and in case of HTTP, it will log just
|
|
after processing the server headers. In this case, the number of bytes reported
|
|
is the number of header bytes sent to the client. In order to avoid confusion
|
|
with normal logs, the total time field and the number of bytes are prefixed
|
|
with a '+' sign which means that real numbers are certainly larger.
|
|
|
|
|
|
8.3.3. Raising log level upon errors
|
|
------------------------------------
|
|
|
|
Sometimes it is more convenient to separate normal traffic from errors logs,
|
|
for instance in order to ease error monitoring from log files. When the option
|
|
"log-separate-errors" is used, connections which experience errors, timeouts,
|
|
retries, redispatches or HTTP status codes 5xx will see their syslog level
|
|
raised from "info" to "err". This will help a syslog daemon store the log in
|
|
a separate file. It is very important to keep the errors in the normal traffic
|
|
file too, so that log ordering is not altered. You should also be careful if
|
|
you already have configured your syslog daemon to store all logs higher than
|
|
"notice" in an "admin" file, because the "err" level is higher than "notice".
|
|
|
|
|
|
8.3.4. Disabling logging of successful connections
|
|
--------------------------------------------------
|
|
|
|
Although this may sound strange at first, some large sites have to deal with
|
|
multiple thousands of logs per second and are experiencing difficulties keeping
|
|
them intact for a long time or detecting errors within them. If the option
|
|
"dontlog-normal" is set on the frontend, all normal connections will not be
|
|
logged. In this regard, a normal connection is defined as one without any
|
|
error, timeout, retry nor redispatch. In HTTP, the status code is checked too,
|
|
and a response with a status 5xx is not considered normal and will be logged
|
|
too. Of course, doing is is really discouraged as it will remove most of the
|
|
useful information from the logs. Do this only if you have no other
|
|
alternative.
|
|
|
|
|
|
8.4. Timing events
|
|
------------------
|
|
|
|
Timers provide a great help in troubleshooting network problems. All values are
|
|
reported in milliseconds (ms). These timers should be used in conjunction with
|
|
the session termination flags. In TCP mode with "option tcplog" set on the
|
|
frontend, 3 control points are reported under the form "Tw/Tc/Tt", and in HTTP
|
|
mode, 5 control points are reported under the form "Tq/Tw/Tc/Tr/Tt" :
|
|
|
|
- Tq: total time to get the client request (HTTP mode only). It's the time
|
|
elapsed between the moment the client connection was accepted and the
|
|
moment the proxy received the last HTTP header. The value "-1" indicates
|
|
that the end of headers (empty line) has never been seen. This happens when
|
|
the client closes prematurely or times out.
|
|
|
|
- Tw: total time spent in the queues waiting for a connection slot. It
|
|
accounts for backend queue as well as the server queues, and depends on the
|
|
queue size, and the time needed for the server to complete previous
|
|
requests. The value "-1" means that the request was killed before reaching
|
|
the queue, which is generally what happens with invalid or denied requests.
|
|
|
|
- Tc: total time to establish the TCP connection to the server. It's the time
|
|
elapsed between the moment the proxy sent the connection request, and the
|
|
moment it was acknowledged by the server, or between the TCP SYN packet and
|
|
the matching SYN/ACK packet in return. The value "-1" means that the
|
|
connection never established.
|
|
|
|
- Tr: server response time (HTTP mode only). It's the time elapsed between
|
|
the moment the TCP connection was established to the server and the moment
|
|
the server sent its complete response headers. It purely shows its request
|
|
processing time, without the network overhead due to the data transmission.
|
|
It is worth noting that when the client has data to send to the server, for
|
|
instance during a POST request, the time already runs, and this can distort
|
|
apparent response time. For this reason, it's generally wise not to trust
|
|
too much this field for POST requests initiated from clients behind an
|
|
untrusted network. A value of "-1" here means that the last the response
|
|
header (empty line) was never seen, most likely because the server timeout
|
|
stroke before the server managed to process the request.
|
|
|
|
- Tt: total session duration time, between the moment the proxy accepted it
|
|
and the moment both ends were closed. The exception is when the "logasap"
|
|
option is specified. In this case, it only equals (Tq+Tw+Tc+Tr), and is
|
|
prefixed with a '+' sign. From this field, we can deduce "Td", the data
|
|
transmission time, by substracting other timers when valid :
|
|
|
|
Td = Tt - (Tq + Tw + Tc + Tr)
|
|
|
|
Timers with "-1" values have to be excluded from this equation. In TCP
|
|
mode, "Tq" and "Tr" have to be excluded too. Note that "Tt" can never be
|
|
negative.
|
|
|
|
These timers provide precious indications on trouble causes. Since the TCP
|
|
protocol defines retransmit delays of 3, 6, 12... seconds, we know for sure
|
|
that timers close to multiples of 3s are nearly always related to lost packets
|
|
due to network problems (wires, negotiation, congestion). Moreover, if "Tt" is
|
|
close to a timeout value specified in the configuration, it often means that a
|
|
session has been aborted on timeout.
|
|
|
|
Most common cases :
|
|
|
|
- If "Tq" is close to 3000, a packet has probably been lost between the
|
|
client and the proxy. This is very rare on local networks but might happen
|
|
when clients are on far remote networks and send large requests. It may
|
|
happen that values larger than usual appear here without any network cause.
|
|
Sometimes, during an attack or just after a resource starvation has ended,
|
|
haproxy may accept thousands of connections in a few milliseconds. The time
|
|
spent accepting these connections will inevitably slightly delay processing
|
|
of other connections, and it can happen that request times in the order of
|
|
a few tens of milliseconds are measured after a few thousands of new
|
|
connections have been accepted at once. Setting "option http-server-close"
|
|
may display larger request times since "Tq" also measures the time spent
|
|
waiting for additional requests.
|
|
|
|
- If "Tc" is close to 3000, a packet has probably been lost between the
|
|
server and the proxy during the server connection phase. This value should
|
|
always be very low, such as 1 ms on local networks and less than a few tens
|
|
of ms on remote networks.
|
|
|
|
- If "Tr" is nearly always lower than 3000 except some rare values which seem
|
|
to be the average majored by 3000, there are probably some packets lost
|
|
between the proxy and the server.
|
|
|
|
- If "Tt" is large even for small byte counts, it generally is because
|
|
neither the client nor the server decides to close the connection, for
|
|
instance because both have agreed on a keep-alive connection mode. In order
|
|
to solve this issue, it will be needed to specify "option httpclose" on
|
|
either the frontend or the backend. If the problem persists, it means that
|
|
the server ignores the "close" connection mode and expects the client to
|
|
close. Then it will be required to use "option forceclose". Having the
|
|
smallest possible 'Tt' is important when connection regulation is used with
|
|
the "maxconn" option on the servers, since no new connection will be sent
|
|
to the server until another one is released.
|
|
|
|
Other noticeable HTTP log cases ('xx' means any value to be ignored) :
|
|
|
|
Tq/Tw/Tc/Tr/+Tt The "option logasap" is present on the frontend and the log
|
|
was emitted before the data phase. All the timers are valid
|
|
except "Tt" which is shorter than reality.
|
|
|
|
-1/xx/xx/xx/Tt The client was not able to send a complete request in time
|
|
or it aborted too early. Check the session termination flags
|
|
then "timeout http-request" and "timeout client" settings.
|
|
|
|
Tq/-1/xx/xx/Tt It was not possible to process the request, maybe because
|
|
servers were out of order, because the request was invalid
|
|
or forbidden by ACL rules. Check the session termination
|
|
flags.
|
|
|
|
Tq/Tw/-1/xx/Tt The connection could not establish on the server. Either it
|
|
actively refused it or it timed out after Tt-(Tq+Tw) ms.
|
|
Check the session termination flags, then check the
|
|
"timeout connect" setting. Note that the tarpit action might
|
|
return similar-looking patterns, with "Tw" equal to the time
|
|
the client connection was maintained open.
|
|
|
|
Tq/Tw/Tc/-1/Tt The server has accepted the connection but did not return
|
|
a complete response in time, or it closed its connexion
|
|
unexpectedly after Tt-(Tq+Tw+Tc) ms. Check the session
|
|
termination flags, then check the "timeout server" setting.
|
|
|
|
|
|
8.5. Session state at disconnection
|
|
-----------------------------------
|
|
|
|
TCP and HTTP logs provide a session termination indicator in the
|
|
"termination_state" field, just before the number of active connections. It is
|
|
2-characters long in TCP mode, and is extended to 4 characters in HTTP mode,
|
|
each of which has a special meaning :
|
|
|
|
- On the first character, a code reporting the first event which caused the
|
|
session to terminate :
|
|
|
|
C : the TCP session was unexpectedly aborted by the client.
|
|
|
|
S : the TCP session was unexpectedly aborted by the server, or the
|
|
server explicitly refused it.
|
|
|
|
P : the session was prematurely aborted by the proxy, because of a
|
|
connection limit enforcement, because a DENY filter was matched,
|
|
because of a security check which detected and blocked a dangerous
|
|
error in server response which might have caused information leak
|
|
(eg: cacheable cookie), or because the response was processed by
|
|
the proxy (redirect, stats, etc...).
|
|
|
|
R : a resource on the proxy has been exhausted (memory, sockets, source
|
|
ports, ...). Usually, this appears during the connection phase, and
|
|
system logs should contain a copy of the precise error. If this
|
|
happens, it must be considered as a very serious anomaly which
|
|
should be fixed as soon as possible by any means.
|
|
|
|
I : an internal error was identified by the proxy during a self-check.
|
|
This should NEVER happen, and you are encouraged to report any log
|
|
containing this, because this would almost certainly be a bug. It
|
|
would be wise to preventively restart the process after such an
|
|
event too, in case it would be caused by memory corruption.
|
|
|
|
c : the client-side timeout expired while waiting for the client to
|
|
send or receive data.
|
|
|
|
s : the server-side timeout expired while waiting for the server to
|
|
send or receive data.
|
|
|
|
- : normal session completion, both the client and the server closed
|
|
with nothing left in the buffers.
|
|
|
|
- on the second character, the TCP or HTTP session state when it was closed :
|
|
|
|
R : the proxy was waiting for a complete, valid REQUEST from the client
|
|
(HTTP mode only). Nothing was sent to any server.
|
|
|
|
Q : the proxy was waiting in the QUEUE for a connection slot. This can
|
|
only happen when servers have a 'maxconn' parameter set. It can
|
|
also happen in the global queue after a redispatch consecutive to
|
|
a failed attempt to connect to a dying server. If no redispatch is
|
|
reported, then no connection attempt was made to any server.
|
|
|
|
C : the proxy was waiting for the CONNECTION to establish on the
|
|
server. The server might at most have noticed a connection attempt.
|
|
|
|
H : the proxy was waiting for complete, valid response HEADERS from the
|
|
server (HTTP only).
|
|
|
|
D : the session was in the DATA phase.
|
|
|
|
L : the proxy was still transmitting LAST data to the client while the
|
|
server had already finished. This one is very rare as it can only
|
|
happen when the client dies while receiving the last packets.
|
|
|
|
T : the request was tarpitted. It has been held open with the client
|
|
during the whole "timeout tarpit" duration or until the client
|
|
closed, both of which will be reported in the "Tw" timer.
|
|
|
|
- : normal session completion after end of data transfer.
|
|
|
|
- the third character tells whether the persistence cookie was provided by
|
|
the client (only in HTTP mode) :
|
|
|
|
N : the client provided NO cookie. This is usually the case for new
|
|
visitors, so counting the number of occurrences of this flag in the
|
|
logs generally indicate a valid trend for the site frequentation.
|
|
|
|
I : the client provided an INVALID cookie matching no known server.
|
|
This might be caused by a recent configuration change, mixed
|
|
cookies between HTTP/HTTPS sites, persistence conditionally
|
|
ignored, or an attack.
|
|
|
|
D : the client provided a cookie designating a server which was DOWN,
|
|
so either "option persist" was used and the client was sent to
|
|
this server, or it was not set and the client was redispatched to
|
|
another server.
|
|
|
|
V : the client provided a VALID cookie, and was sent to the associated
|
|
server.
|
|
|
|
E : the client provided a valid cookie, but with a last date which was
|
|
older than what is allowed by the "maxidle" cookie parameter, so
|
|
the cookie is consider EXPIRED and is ignored. The request will be
|
|
redispatched just as if there was no cookie.
|
|
|
|
O : the client provided a valid cookie, but with a first date which was
|
|
older than what is allowed by the "maxlife" cookie parameter, so
|
|
the cookie is consider too OLD and is ignored. The request will be
|
|
redispatched just as if there was no cookie.
|
|
|
|
- : does not apply (no cookie set in configuration).
|
|
|
|
- the last character reports what operations were performed on the persistence
|
|
cookie returned by the server (only in HTTP mode) :
|
|
|
|
N : NO cookie was provided by the server, and none was inserted either.
|
|
|
|
I : no cookie was provided by the server, and the proxy INSERTED one.
|
|
Note that in "cookie insert" mode, if the server provides a cookie,
|
|
it will still be overwritten and reported as "I" here.
|
|
|
|
U : the proxy UPDATED the last date in the cookie that was presented by
|
|
the client. This can only happen in insert mode with "maxidle". It
|
|
happens everytime there is activity at a different date than the
|
|
date indicated in the cookie. If any other change happens, such as
|
|
a redispatch, then the cookie will be marked as inserted instead.
|
|
|
|
P : a cookie was PROVIDED by the server and transmitted as-is.
|
|
|
|
R : the cookie provided by the server was REWRITTEN by the proxy, which
|
|
happens in "cookie rewrite" or "cookie prefix" modes.
|
|
|
|
D : the cookie provided by the server was DELETED by the proxy.
|
|
|
|
- : does not apply (no cookie set in configuration).
|
|
|
|
The combination of the two first flags gives a lot of information about what
|
|
was happening when the session terminated, and why it did terminate. It can be
|
|
helpful to detect server saturation, network troubles, local system resource
|
|
starvation, attacks, etc...
|
|
|
|
The most common termination flags combinations are indicated below. They are
|
|
alphabetically sorted, with the lowercase set just after the upper case for
|
|
easier finding and understanding.
|
|
|
|
Flags Reason
|
|
|
|
-- Normal termination.
|
|
|
|
CC The client aborted before the connection could be established to the
|
|
server. This can happen when haproxy tries to connect to a recently
|
|
dead (or unchecked) server, and the client aborts while haproxy is
|
|
waiting for the server to respond or for "timeout connect" to expire.
|
|
|
|
CD The client unexpectedly aborted during data transfer. This can be
|
|
caused by a browser crash, by an intermediate equipment between the
|
|
client and haproxy which decided to actively break the connection,
|
|
by network routing issues between the client and haproxy, or by a
|
|
keep-alive session between the server and the client terminated first
|
|
by the client.
|
|
|
|
cD The client did not send nor acknowledge any data for as long as the
|
|
"timeout client" delay. This is often caused by network failures on
|
|
the client side, or the client simply leaving the net uncleanly.
|
|
|
|
CH The client aborted while waiting for the server to start responding.
|
|
It might be the server taking too long to respond or the client
|
|
clicking the 'Stop' button too fast.
|
|
|
|
cH The "timeout client" stroke while waiting for client data during a
|
|
POST request. This is sometimes caused by too large TCP MSS values
|
|
for PPPoE networks which cannot transport full-sized packets. It can
|
|
also happen when client timeout is smaller than server timeout and
|
|
the server takes too long to respond.
|
|
|
|
CQ The client aborted while its session was queued, waiting for a server
|
|
with enough empty slots to accept it. It might be that either all the
|
|
servers were saturated or that the assigned server was taking too
|
|
long a time to respond.
|
|
|
|
CR The client aborted before sending a full HTTP request. Most likely
|
|
the request was typed by hand using a telnet client, and aborted
|
|
too early. The HTTP status code is likely a 400 here. Sometimes this
|
|
might also be caused by an IDS killing the connection between haproxy
|
|
and the client.
|
|
|
|
cR The "timeout http-request" stroke before the client sent a full HTTP
|
|
request. This is sometimes caused by too large TCP MSS values on the
|
|
client side for PPPoE networks which cannot transport full-sized
|
|
packets, or by clients sending requests by hand and not typing fast
|
|
enough, or forgetting to enter the empty line at the end of the
|
|
request. The HTTP status code is likely a 408 here.
|
|
|
|
CT The client aborted while its session was tarpitted. It is important to
|
|
check if this happens on valid requests, in order to be sure that no
|
|
wrong tarpit rules have been written. If a lot of them happen, it
|
|
might make sense to lower the "timeout tarpit" value to something
|
|
closer to the average reported "Tw" timer, in order not to consume
|
|
resources for just a few attackers.
|
|
|
|
SC The server or an equipment between it and haproxy explicitly refused
|
|
the TCP connection (the proxy received a TCP RST or an ICMP message
|
|
in return). Under some circumstances, it can also be the network
|
|
stack telling the proxy that the server is unreachable (eg: no route,
|
|
or no ARP response on local network). When this happens in HTTP mode,
|
|
the status code is likely a 502 or 503 here.
|
|
|
|
sC The "timeout connect" stroke before a connection to the server could
|
|
complete. When this happens in HTTP mode, the status code is likely a
|
|
503 or 504 here.
|
|
|
|
SD The connection to the server died with an error during the data
|
|
transfer. This usually means that haproxy has received an RST from
|
|
the server or an ICMP message from an intermediate equipment while
|
|
exchanging data with the server. This can be caused by a server crash
|
|
or by a network issue on an intermediate equipment.
|
|
|
|
sD The server did not send nor acknowledge any data for as long as the
|
|
"timeout server" setting during the data phase. This is often caused
|
|
by too short timeouts on L4 equipments before the server (firewalls,
|
|
load-balancers, ...), as well as keep-alive sessions maintained
|
|
between the client and the server expiring first on haproxy.
|
|
|
|
SH The server aborted before sending its full HTTP response headers, or
|
|
it crashed while processing the request. Since a server aborting at
|
|
this moment is very rare, it would be wise to inspect its logs to
|
|
control whether it crashed and why. The logged request may indicate a
|
|
small set of faulty requests, demonstrating bugs in the application.
|
|
Sometimes this might also be caused by an IDS killing the connection
|
|
between haproxy and the server.
|
|
|
|
sH The "timeout server" stroke before the server could return its
|
|
response headers. This is the most common anomaly, indicating too
|
|
long transactions, probably caused by server or database saturation.
|
|
The immediate workaround consists in increasing the "timeout server"
|
|
setting, but it is important to keep in mind that the user experience
|
|
will suffer from these long response times. The only long term
|
|
solution is to fix the application.
|
|
|
|
sQ The session spent too much time in queue and has been expired. See
|
|
the "timeout queue" and "timeout connect" settings to find out how to
|
|
fix this if it happens too often. If it often happens massively in
|
|
short periods, it may indicate general problems on the affected
|
|
servers due to I/O or database congestion, or saturation caused by
|
|
external attacks.
|
|
|
|
PC The proxy refused to establish a connection to the server because the
|
|
process' socket limit has been reached while attempting to connect.
|
|
The global "maxconn" parameter may be increased in the configuration
|
|
so that it does not happen anymore. This status is very rare and
|
|
might happen when the global "ulimit-n" parameter is forced by hand.
|
|
|
|
PD The proxy blocked an incorrectly formatted chunked encoded message in
|
|
a request or a response, after the server has emitted its headers. In
|
|
most cases, this will indicate an invalid message from the server to
|
|
the client.
|
|
|
|
PH The proxy blocked the server's response, because it was invalid,
|
|
incomplete, dangerous (cache control), or matched a security filter.
|
|
In any case, an HTTP 502 error is sent to the client. One possible
|
|
cause for this error is an invalid syntax in an HTTP header name
|
|
containing unauthorized characters. It is also possible but quite
|
|
rare, that the proxy blocked a chunked-encoding request from the
|
|
client due to an invalid syntax, before the server responded. In this
|
|
case, an HTTP 400 error is sent to the client and reported in the
|
|
logs.
|
|
|
|
PR The proxy blocked the client's HTTP request, either because of an
|
|
invalid HTTP syntax, in which case it returned an HTTP 400 error to
|
|
the client, or because a deny filter matched, in which case it
|
|
returned an HTTP 403 error.
|
|
|
|
PT The proxy blocked the client's request and has tarpitted its
|
|
connection before returning it a 500 server error. Nothing was sent
|
|
to the server. The connection was maintained open for as long as
|
|
reported by the "Tw" timer field.
|
|
|
|
RC A local resource has been exhausted (memory, sockets, source ports)
|
|
preventing the connection to the server from establishing. The error
|
|
logs will tell precisely what was missing. This is very rare and can
|
|
only be solved by proper system tuning.
|
|
|
|
The combination of the two last flags gives a lot of information about how
|
|
persistence was handled by the client, the server and by haproxy. This is very
|
|
important to troubleshoot disconnections, when users complain they have to
|
|
re-authenticate. The commonly encountered flags are :
|
|
|
|
-- Persistence cookie is not enabled.
|
|
|
|
NN No cookie was provided by the client, none was inserted in the
|
|
response. For instance, this can be in insert mode with "postonly"
|
|
set on a GET request.
|
|
|
|
II A cookie designating an invalid server was provided by the client,
|
|
a valid one was inserted in the response. This typically happens when
|
|
a "server" entry is removed from the configuraton, since its cookie
|
|
value can be presented by a client when no other server knows it.
|
|
|
|
NI No cookie was provided by the client, one was inserted in the
|
|
response. This typically happens for first requests from every user
|
|
in "insert" mode, which makes it an easy way to count real users.
|
|
|
|
VN A cookie was provided by the client, none was inserted in the
|
|
response. This happens for most responses for which the client has
|
|
already got a cookie.
|
|
|
|
VU A cookie was provided by the client, with a last visit date which is
|
|
not completely up-to-date, so an updated cookie was provided in
|
|
response. This can also happen if there was no date at all, or if
|
|
there was a date but the "maxidle" parameter was not set, so that the
|
|
cookie can be switched to unlimited time.
|
|
|
|
EI A cookie was provided by the client, with a last visit date which is
|
|
too old for the "maxidle" parameter, so the cookie was ignored and a
|
|
new cookie was inserted in the response.
|
|
|
|
OI A cookie was provided by the client, with a first visit date which is
|
|
too old for the "maxlife" parameter, so the cookie was ignored and a
|
|
new cookie was inserted in the response.
|
|
|
|
DI The server designated by the cookie was down, a new server was
|
|
selected and a new cookie was emitted in the response.
|
|
|
|
VI The server designated by the cookie was not marked dead but could not
|
|
be reached. A redispatch happened and selected another one, which was
|
|
then advertised in the response.
|
|
|
|
|
|
8.6. Non-printable characters
|
|
-----------------------------
|
|
|
|
In order not to cause trouble to log analysis tools or terminals during log
|
|
consulting, non-printable characters are not sent as-is into log files, but are
|
|
converted to the two-digits hexadecimal representation of their ASCII code,
|
|
prefixed by the character '#'. The only characters that can be logged without
|
|
being escaped are comprised between 32 and 126 (inclusive). Obviously, the
|
|
escape character '#' itself is also encoded to avoid any ambiguity ("#23"). It
|
|
is the same for the character '"' which becomes "#22", as well as '{', '|' and
|
|
'}' when logging headers.
|
|
|
|
Note that the space character (' ') is not encoded in headers, which can cause
|
|
issues for tools relying on space count to locate fields. A typical header
|
|
containing spaces is "User-Agent".
|
|
|
|
Last, it has been observed that some syslog daemons such as syslog-ng escape
|
|
the quote ('"') with a backslash ('\'). The reverse operation can safely be
|
|
performed since no quote may appear anywhere else in the logs.
|
|
|
|
|
|
8.7. Capturing HTTP cookies
|
|
---------------------------
|
|
|
|
Cookie capture simplifies the tracking a complete user session. This can be
|
|
achieved using the "capture cookie" statement in the frontend. Please refer to
|
|
section 4.2 for more details. Only one cookie can be captured, and the same
|
|
cookie will simultaneously be checked in the request ("Cookie:" header) and in
|
|
the response ("Set-Cookie:" header). The respective values will be reported in
|
|
the HTTP logs at the "captured_request_cookie" and "captured_response_cookie"
|
|
locations (see section 8.2.3 about HTTP log format). When either cookie is
|
|
not seen, a dash ('-') replaces the value. This way, it's easy to detect when a
|
|
user switches to a new session for example, because the server will reassign it
|
|
a new cookie. It is also possible to detect if a server unexpectedly sets a
|
|
wrong cookie to a client, leading to session crossing.
|
|
|
|
Examples :
|
|
# capture the first cookie whose name starts with "ASPSESSION"
|
|
capture cookie ASPSESSION len 32
|
|
|
|
# capture the first cookie whose name is exactly "vgnvisitor"
|
|
capture cookie vgnvisitor= len 32
|
|
|
|
|
|
8.8. Capturing HTTP headers
|
|
---------------------------
|
|
|
|
Header captures are useful to track unique request identifiers set by an upper
|
|
proxy, virtual host names, user-agents, POST content-length, referrers, etc. In
|
|
the response, one can search for information about the response length, how the
|
|
server asked the cache to behave, or an object location during a redirection.
|
|
|
|
Header captures are performed using the "capture request header" and "capture
|
|
response header" statements in the frontend. Please consult their definition in
|
|
section 4.2 for more details.
|
|
|
|
It is possible to include both request headers and response headers at the same
|
|
time. Non-existent headers are logged as empty strings, and if one header
|
|
appears more than once, only its last occurrence will be logged. Request headers
|
|
are grouped within braces '{' and '}' in the same order as they were declared,
|
|
and delimited with a vertical bar '|' without any space. Response headers
|
|
follow the same representation, but are displayed after a space following the
|
|
request headers block. These blocks are displayed just before the HTTP request
|
|
in the logs.
|
|
|
|
Example :
|
|
# This instance chains to the outgoing proxy
|
|
listen proxy-out
|
|
mode http
|
|
option httplog
|
|
option logasap
|
|
log global
|
|
server cache1 192.168.1.1:3128
|
|
|
|
# log the name of the virtual server
|
|
capture request header Host len 20
|
|
|
|
# log the amount of data uploaded during a POST
|
|
capture request header Content-Length len 10
|
|
|
|
# log the beginning of the referrer
|
|
capture request header Referer len 20
|
|
|
|
# server name (useful for outgoing proxies only)
|
|
capture response header Server len 20
|
|
|
|
# logging the content-length is useful with "option logasap"
|
|
capture response header Content-Length len 10
|
|
|
|
# log the expected cache behaviour on the response
|
|
capture response header Cache-Control len 8
|
|
|
|
# the Via header will report the next proxy's name
|
|
capture response header Via len 20
|
|
|
|
# log the URL location during a redirection
|
|
capture response header Location len 20
|
|
|
|
>>> Aug 9 20:26:09 localhost \
|
|
haproxy[2022]: 127.0.0.1:34014 [09/Aug/2004:20:26:09] proxy-out \
|
|
proxy-out/cache1 0/0/0/162/+162 200 +350 - - ---- 0/0/0/0/0 0/0 \
|
|
{fr.adserver.yahoo.co||http://fr.f416.mail.} {|864|private||} \
|
|
"GET http://fr.adserver.yahoo.com/"
|
|
|
|
>>> Aug 9 20:30:46 localhost \
|
|
haproxy[2022]: 127.0.0.1:34020 [09/Aug/2004:20:30:46] proxy-out \
|
|
proxy-out/cache1 0/0/0/182/+182 200 +279 - - ---- 0/0/0/0/0 0/0 \
|
|
{w.ods.org||} {Formilux/0.1.8|3495|||} \
|
|
"GET http://trafic.1wt.eu/ HTTP/1.1"
|
|
|
|
>>> Aug 9 20:30:46 localhost \
|
|
haproxy[2022]: 127.0.0.1:34028 [09/Aug/2004:20:30:46] proxy-out \
|
|
proxy-out/cache1 0/0/2/126/+128 301 +223 - - ---- 0/0/0/0/0 0/0 \
|
|
{www.sytadin.equipement.gouv.fr||http://trafic.1wt.eu/} \
|
|
{Apache|230|||http://www.sytadin.} \
|
|
"GET http://www.sytadin.equipement.gouv.fr/ HTTP/1.1"
|
|
|
|
|
|
8.9. Examples of logs
|
|
---------------------
|
|
|
|
These are real-world examples of logs accompanied with an explanation. Some of
|
|
them have been made up by hand. The syslog part has been removed for better
|
|
reading. Their sole purpose is to explain how to decipher them.
|
|
|
|
>>> haproxy[674]: 127.0.0.1:33318 [15/Oct/2003:08:31:57.130] px-http \
|
|
px-http/srv1 6559/0/7/147/6723 200 243 - - ---- 5/3/3/1/0 0/0 \
|
|
"HEAD / HTTP/1.0"
|
|
|
|
=> long request (6.5s) entered by hand through 'telnet'. The server replied
|
|
in 147 ms, and the session ended normally ('----')
|
|
|
|
>>> haproxy[674]: 127.0.0.1:33319 [15/Oct/2003:08:31:57.149] px-http \
|
|
px-http/srv1 6559/1230/7/147/6870 200 243 - - ---- 324/239/239/99/0 \
|
|
0/9 "HEAD / HTTP/1.0"
|
|
|
|
=> Idem, but the request was queued in the global queue behind 9 other
|
|
requests, and waited there for 1230 ms.
|
|
|
|
>>> haproxy[674]: 127.0.0.1:33320 [15/Oct/2003:08:32:17.654] px-http \
|
|
px-http/srv1 9/0/7/14/+30 200 +243 - - ---- 3/3/3/1/0 0/0 \
|
|
"GET /image.iso HTTP/1.0"
|
|
|
|
=> request for a long data transfer. The "logasap" option was specified, so
|
|
the log was produced just before transferring data. The server replied in
|
|
14 ms, 243 bytes of headers were sent to the client, and total time from
|
|
accept to first data byte is 30 ms.
|
|
|
|
>>> haproxy[674]: 127.0.0.1:33320 [15/Oct/2003:08:32:17.925] px-http \
|
|
px-http/srv1 9/0/7/14/30 502 243 - - PH-- 3/2/2/0/0 0/0 \
|
|
"GET /cgi-bin/bug.cgi? HTTP/1.0"
|
|
|
|
=> the proxy blocked a server response either because of an "rspdeny" or
|
|
"rspideny" filter, or because the response was improperly formatted and
|
|
not HTTP-compliant, or because it blocked sensible information which
|
|
risked being cached. In this case, the response is replaced with a "502
|
|
bad gateway". The flags ("PH--") tell us that it was haproxy who decided
|
|
to return the 502 and not the server.
|
|
|
|
>>> haproxy[18113]: 127.0.0.1:34548 [15/Oct/2003:15:18:55.798] px-http \
|
|
px-http/<NOSRV> -1/-1/-1/-1/8490 -1 0 - - CR-- 2/2/2/0/0 0/0 ""
|
|
|
|
=> the client never completed its request and aborted itself ("C---") after
|
|
8.5s, while the proxy was waiting for the request headers ("-R--").
|
|
Nothing was sent to any server.
|
|
|
|
>>> haproxy[18113]: 127.0.0.1:34549 [15/Oct/2003:15:19:06.103] px-http \
|
|
px-http/<NOSRV> -1/-1/-1/-1/50001 408 0 - - cR-- 2/2/2/0/0 0/0 ""
|
|
|
|
=> The client never completed its request, which was aborted by the
|
|
time-out ("c---") after 50s, while the proxy was waiting for the request
|
|
headers ("-R--"). Nothing was sent to any server, but the proxy could
|
|
send a 408 return code to the client.
|
|
|
|
>>> haproxy[18989]: 127.0.0.1:34550 [15/Oct/2003:15:24:28.312] px-tcp \
|
|
px-tcp/srv1 0/0/5007 0 cD 0/0/0/0/0 0/0
|
|
|
|
=> This log was produced with "option tcplog". The client timed out after
|
|
5 seconds ("c----").
|
|
|
|
>>> haproxy[18989]: 10.0.0.1:34552 [15/Oct/2003:15:26:31.462] px-http \
|
|
px-http/srv1 3183/-1/-1/-1/11215 503 0 - - SC-- 205/202/202/115/3 \
|
|
0/0 "HEAD / HTTP/1.0"
|
|
|
|
=> The request took 3s to complete (probably a network problem), and the
|
|
connection to the server failed ('SC--') after 4 attempts of 2 seconds
|
|
(config says 'retries 3'), and no redispatch (otherwise we would have
|
|
seen "/+3"). Status code 503 was returned to the client. There were 115
|
|
connections on this server, 202 connections on this proxy, and 205 on
|
|
the global process. It is possible that the server refused the
|
|
connection because of too many already established.
|
|
|
|
|
|
9. Statistics and monitoring
|
|
----------------------------
|
|
|
|
It is possible to query HAProxy about its status. The most commonly used
|
|
mechanism is the HTTP statistics page. This page also exposes an alternative
|
|
CSV output format for monitoring tools. The same format is provided on the
|
|
Unix socket.
|
|
|
|
|
|
9.1. CSV format
|
|
---------------
|
|
|
|
The statistics may be consulted either from the unix socket or from the HTTP
|
|
page. Both means provide a CSV format whose fields follow.
|
|
|
|
0. pxname: proxy name
|
|
1. svname: service name (FRONTEND for frontend, BACKEND for backend, any name
|
|
for server)
|
|
2. qcur: current queued requests
|
|
3. qmax: max queued requests
|
|
4. scur: current sessions
|
|
5. smax: max sessions
|
|
6. slim: sessions limit
|
|
7. stot: total sessions
|
|
8. bin: bytes in
|
|
9. bout: bytes out
|
|
10. dreq: denied requests
|
|
11. dresp: denied responses
|
|
12. ereq: request errors
|
|
13. econ: connection errors
|
|
14. eresp: response errors (among which srv_abrt)
|
|
15. wretr: retries (warning)
|
|
16. wredis: redispatches (warning)
|
|
17. status: status (UP/DOWN/NOLB/MAINT/MAINT(via)...)
|
|
18. weight: server weight (server), total weight (backend)
|
|
19. act: server is active (server), number of active servers (backend)
|
|
20. bck: server is backup (server), number of backup servers (backend)
|
|
21. chkfail: number of failed checks
|
|
22. chkdown: number of UP->DOWN transitions
|
|
23. lastchg: last status change (in seconds)
|
|
24. downtime: total downtime (in seconds)
|
|
25. qlimit: queue limit
|
|
26. pid: process id (0 for first instance, 1 for second, ...)
|
|
27. iid: unique proxy id
|
|
28. sid: service id (unique inside a proxy)
|
|
29. throttle: warm up status
|
|
30. lbtot: total number of times a server was selected
|
|
31. tracked: id of proxy/server if tracking is enabled
|
|
32. type (0=frontend, 1=backend, 2=server, 3=socket)
|
|
33. rate: number of sessions per second over last elapsed second
|
|
34. rate_lim: limit on new sessions per second
|
|
35. rate_max: max number of new sessions per second
|
|
36. check_status: status of last health check, one of:
|
|
UNK -> unknown
|
|
INI -> initializing
|
|
SOCKERR -> socket error
|
|
L4OK -> check passed on layer 4, no upper layers testing enabled
|
|
L4TMOUT -> layer 1-4 timeout
|
|
L4CON -> layer 1-4 connection problem, for example
|
|
"Connection refused" (tcp rst) or "No route to host" (icmp)
|
|
L6OK -> check passed on layer 6
|
|
L6TOUT -> layer 6 (SSL) timeout
|
|
L6RSP -> layer 6 invalid response - protocol error
|
|
L7OK -> check passed on layer 7
|
|
L7OKC -> check conditionally passed on layer 7, for example 404 with
|
|
disable-on-404
|
|
L7TOUT -> layer 7 (HTTP/SMTP) timeout
|
|
L7RSP -> layer 7 invalid response - protocol error
|
|
L7STS -> layer 7 response error, for example HTTP 5xx
|
|
37. check_code: layer5-7 code, if available
|
|
38. check_duration: time in ms took to finish last health check
|
|
39. hrsp_1xx: http responses with 1xx code
|
|
40. hrsp_2xx: http responses with 2xx code
|
|
41. hrsp_3xx: http responses with 3xx code
|
|
42. hrsp_4xx: http responses with 4xx code
|
|
43. hrsp_5xx: http responses with 5xx code
|
|
44. hrsp_other: http responses with other codes (protocol error)
|
|
45. hanafail: failed health checks details
|
|
46. req_rate: HTTP requests per second over last elapsed second
|
|
47. req_rate_max: max number of HTTP requests per second observed
|
|
48. req_tot: total number of HTTP requests received
|
|
49. cli_abrt: number of data transfers aborted by the client
|
|
50. srv_abrt: number of data transfers aborted by the server (inc. in eresp)
|
|
|
|
|
|
9.2. Unix Socket commands
|
|
-------------------------
|
|
|
|
The following commands are supported on the UNIX stats socket ; all of them
|
|
must be terminated by a line feed. The socket supports pipelining, so that it
|
|
is possible to chain multiple commands at once provided they are delimited by
|
|
a semi-colon or a line feed, although the former is more reliable as it has no
|
|
risk of being truncated over the network. The responses themselves will each be
|
|
followed by an empty line, so it will be easy for an external script to match a
|
|
given response with a given request. By default one command line is processed
|
|
then the connection closes, but there is an interactive allowing multiple lines
|
|
to be issued one at a time.
|
|
|
|
It is important to understand that when multiple haproxy processes are started
|
|
on the same sockets, any process may pick up the request and will output its
|
|
own stats.
|
|
|
|
clear counters
|
|
Clear the max values of the statistics counters in each proxy (frontend &
|
|
backend) and in each server. The cumulated counters are not affected. This
|
|
can be used to get clean counters after an incident, without having to
|
|
restart nor to clear traffic counters. This command is restricted and can
|
|
only be issued on sockets configured for levels "operator" or "admin".
|
|
|
|
clear counters all
|
|
Clear all statistics counters in each proxy (frontend & backend) and in each
|
|
server. This has the same effect as restarting. This command is restricted
|
|
and can only be issued on sockets configured for level "admin".
|
|
|
|
clear table <table> key <key>
|
|
Remove entry <key> from the stick-table <table>. The key must be of the same
|
|
type as the table, which currently is limited to IPv4. This is typically used
|
|
un unblock some users complaining they have been abusively denied access to a
|
|
service, but this can also be used to clear some stickiness entries matching
|
|
a server that is going to be replaced (see "show table" below for details).
|
|
Note that sometimes, removal of a key will be refused because it is currently
|
|
tracked by a session. Retrying a few seconds later after the session ends is
|
|
usuall enough.
|
|
|
|
Example :
|
|
$ echo "show table http_proxy" | socat stdio /tmp/sock1
|
|
>>> # table: http_proxy, type: ip, size:204800, used:2
|
|
>>> 0x80e6a4c: key=127.0.0.1 use=0 exp=3594729 gpc0=0 conn_rate(30000)=1 \
|
|
bytes_out_rate(60000)=187
|
|
>>> 0x80e6a80: key=127.0.0.2 use=0 exp=3594740 gpc0=1 conn_rate(30000)=10 \
|
|
bytes_out_rate(60000)=191
|
|
|
|
$ echo "clear table http_proxy key 127.0.0.1" | socat stdio /tmp/sock1
|
|
|
|
$ echo "show table http_proxy" | socat stdio /tmp/sock1
|
|
>>> # table: http_proxy, type: ip, size:204800, used:1
|
|
>>> 0x80e6a80: key=127.0.0.2 use=0 exp=3594740 gpc0=1 conn_rate(30000)=10 \
|
|
bytes_out_rate(60000)=191
|
|
|
|
disable server <backend>/<server>
|
|
Mark the server DOWN for maintenance. In this mode, no more checks will be
|
|
performed on the server until it leaves maintenance.
|
|
If the server is tracked by other servers, those servers will be set to DOWN
|
|
during the maintenance.
|
|
|
|
In the statistics page, a server DOWN for maintenance will appear with a
|
|
"MAINT" status, its tracking servers with the "MAINT(via)" one.
|
|
|
|
Both the backend and the server may be specified either by their name or by
|
|
their numeric ID, prefixed with a dash ('#').
|
|
|
|
This command is restricted and can only be issued on sockets configured for
|
|
level "admin".
|
|
|
|
enable server <backend>/<server>
|
|
If the server was previously marked as DOWN for maintenance, this marks the
|
|
server UP and checks are re-enabled.
|
|
|
|
Both the backend and the server may be specified either by their name or by
|
|
their numeric ID, prefixed with a dash ('#').
|
|
|
|
This command is restricted and can only be issued on sockets configured for
|
|
level "admin".
|
|
|
|
get weight <backend>/<server>
|
|
Report the current weight and the initial weight of server <server> in
|
|
backend <backend> or an error if either doesn't exist. The initial weight is
|
|
the one that appears in the configuration file. Both are normally equal
|
|
unless the current weight has been changed. Both the backend and the server
|
|
may be specified either by their name or by their numeric ID, prefixed with a
|
|
dash ('#').
|
|
|
|
help
|
|
Print the list of known keywords and their basic usage. The same help screen
|
|
is also displayed for unknown commands.
|
|
|
|
prompt
|
|
Toggle the prompt at the beginning of the line and enter or leave interactive
|
|
mode. In interactive mode, the connection is not closed after a command
|
|
completes. Instead, the prompt will appear again, indicating the user that
|
|
the interpreter is waiting for a new command. The prompt consists in a right
|
|
angle bracket followed by a space "> ". This mode is particularly convenient
|
|
when one wants to periodically check information such as stats or errors.
|
|
It is also a good idea to enter interactive mode before issuing a "help"
|
|
command.
|
|
|
|
quit
|
|
Close the connection when in interactive mode.
|
|
|
|
set timeout cli <delay>
|
|
Change the CLI interface timeout for current connection. This can be useful
|
|
during long debugging sessions where the user needs to constantly inspect
|
|
some indicators without being disconnected. The delay is passed in seconds.
|
|
|
|
set weight <backend>/<server> <weight>[%]
|
|
Change a server's weight to the value passed in argument. If the value ends
|
|
with the '%' sign, then the new weight will be relative to the initially
|
|
configured weight. Relative weights are only permitted between 0 and 100%,
|
|
and absolute weights are permitted between 0 and 256. Servers which are part
|
|
of a farm running a static load-balancing algorithm have stricter limitations
|
|
because the weight cannot change once set. Thus for these servers, the only
|
|
accepted values are 0 and 100% (or 0 and the initial weight). Changes take
|
|
effect immediately, though certain LB algorithms require a certain amount of
|
|
requests to consider changes. A typical usage of this command is to disable
|
|
a server during an update by setting its weight to zero, then to enable it
|
|
again after the update by setting it back to 100%. This command is restricted
|
|
and can only be issued on sockets configured for level "admin". Both the
|
|
backend and the server may be specified either by their name or by their
|
|
numeric ID, prefixed with a dash ('#').
|
|
|
|
show errors [<iid>]
|
|
Dump last known request and response errors collected by frontends and
|
|
backends. If <iid> is specified, the limit the dump to errors concerning
|
|
either frontend or backend whose ID is <iid>. This command is restricted
|
|
and can only be issued on sockets configured for levels "operator" or
|
|
"admin".
|
|
|
|
The errors which may be collected are the last request and response errors
|
|
caused by protocol violations, often due to invalid characters in header
|
|
names. The report precisely indicates what exact character violated the
|
|
protocol. Other important information such as the exact date the error was
|
|
detected, frontend and backend names, the server name (when known), the
|
|
internal session ID and the source address which has initiated the session
|
|
are reported too.
|
|
|
|
All characters are returned, and non-printable characters are encoded. The
|
|
most common ones (\t = 9, \n = 10, \r = 13 and \e = 27) are encoded as one
|
|
letter following a backslash. The backslash itself is encoded as '\\' to
|
|
avoid confusion. Other non-printable characters are encoded '\xNN' where
|
|
NN is the two-digits hexadecimal representation of the character's ASCII
|
|
code.
|
|
|
|
Lines are prefixed with the position of their first character, starting at 0
|
|
for the beginning of the buffer. At most one input line is printed per line,
|
|
and large lines will be broken into multiple consecutive output lines so that
|
|
the output never goes beyond 79 characters wide. It is easy to detect if a
|
|
line was broken, because it will not end with '\n' and the next line's offset
|
|
will be followed by a '+' sign, indicating it is a continuation of previous
|
|
line.
|
|
|
|
Example :
|
|
$ echo "show errors" | socat stdio /tmp/sock1
|
|
>>> [04/Mar/2009:15:46:56.081] backend http-in (#2) : invalid response
|
|
src 127.0.0.1, session #54, frontend fe-eth0 (#1), server s2 (#1)
|
|
response length 213 bytes, error at position 23:
|
|
|
|
00000 HTTP/1.0 200 OK\r\n
|
|
00017 header/bizarre:blah\r\n
|
|
00038 Location: blah\r\n
|
|
00054 Long-line: this is a very long line which should b
|
|
00104+ e broken into multiple lines on the output buffer,
|
|
00154+ otherwise it would be too large to print in a ter
|
|
00204+ minal\r\n
|
|
00211 \r\n
|
|
|
|
In the example above, we see that the backend "http-in" which has internal
|
|
ID 2 has blocked an invalid response from its server s2 which has internal
|
|
ID 1. The request was on session 54 initiated by source 127.0.0.1 and
|
|
received by frontend fe-eth0 whose ID is 1. The total response length was
|
|
213 bytes when the error was detected, and the error was at byte 23. This
|
|
is the slash ('/') in header name "header/bizarre", which is not a valid
|
|
HTTP character for a header name.
|
|
|
|
show info
|
|
Dump info about haproxy status on current process.
|
|
|
|
show sess
|
|
Dump all known sessions. Avoid doing this on slow connections as this can
|
|
be huge. This command is restricted and can only be issued on sockets
|
|
configured for levels "operator" or "admin".
|
|
|
|
show sess <id>
|
|
Display a lot of internal information about the specified session identifier.
|
|
This identifier is the first field at the beginning of the lines in the dumps
|
|
of "show sess" (it corresponds to the session pointer). Those information are
|
|
useless to most users but may be used by haproxy developers to troubleshoot a
|
|
complex bug. The output format is intentionally not documented so that it can
|
|
freely evolve depending on demands.
|
|
|
|
show stat [<iid> <type> <sid>]
|
|
Dump statistics in the CSV format. By passing <id>, <type> and <sid>, it is
|
|
possible to dump only selected items :
|
|
- <iid> is a proxy ID, -1 to dump everything
|
|
- <type> selects the type of dumpable objects : 1 for frontends, 2 for
|
|
backends, 4 for servers, -1 for everything. These values can be ORed,
|
|
for example:
|
|
1 + 2 = 3 -> frontend + backend.
|
|
1 + 2 + 4 = 7 -> frontend + backend + server.
|
|
- <sid> is a server ID, -1 to dump everything from the selected proxy.
|
|
|
|
Example :
|
|
$ echo "show info;show stat" | socat stdio unix-connect:/tmp/sock1
|
|
>>> Name: HAProxy
|
|
Version: 1.4-dev2-49
|
|
Release_date: 2009/09/23
|
|
Nbproc: 1
|
|
Process_num: 1
|
|
(...)
|
|
|
|
# pxname,svname,qcur,qmax,scur,smax,slim,stot,bin,bout,dreq, (...)
|
|
stats,FRONTEND,,,0,0,1000,0,0,0,0,0,0,,,,,OPEN,,,,,,,,,1,1,0, (...)
|
|
stats,BACKEND,0,0,0,0,1000,0,0,0,0,0,,0,0,0,0,UP,0,0,0,,0,250,(...)
|
|
(...)
|
|
www1,BACKEND,0,0,0,0,1000,0,0,0,0,0,,0,0,0,0,UP,1,1,0,,0,250, (...)
|
|
|
|
$
|
|
|
|
Here, two commands have been issued at once. That way it's easy to find
|
|
which process the stats apply to in multi-process mode. Notice the empty
|
|
line after the information output which marks the end of the first block.
|
|
A similar empty line appears at the end of the second block (stats) so that
|
|
the reader knows the output has not been truncated.
|
|
|
|
show table
|
|
Dump general information on all known stick-tables. Their name is returned
|
|
(the name of the proxy which holds them), their type (currently zero, always
|
|
IP), their size in maximum possible number of entries, and the number of
|
|
entries currently in use.
|
|
|
|
Example :
|
|
$ echo "show table" | socat stdio /tmp/sock1
|
|
>>> # table: front_pub, type: 0, size:204800, used:171454
|
|
>>> # table: back_rdp, type: 0, size:204800, used:0
|
|
|
|
show table <name> [ data.<type> <operator> <value> ]
|
|
Dump contents of stick-table <name>. In this mode, a first line of generic
|
|
information about the table is reported as with "show table", then all
|
|
entries are dumped. Since this can be quite heavy, it is possible to specify
|
|
a filter in order to specify what entries to display. The filter then applies
|
|
to the stored data (see "stick-table" in section 4.2). One stored data type
|
|
has to be specified in <type>, and this data type must be stored in the table
|
|
otherwise an error is reported. The data is compared according to <operator>
|
|
with the 64-bit integer <value>. Operators are the same as with the ACLs :
|
|
- eq : match entries whose data is equal to this value
|
|
- ne : match entries whose data is not equal to this value
|
|
- le : match entries whose data is less than or equal to this value
|
|
- ge : match entries whose data is greater than or equal to this value
|
|
- lt : match entries whose data is less than this value
|
|
- gt : match entries whose data is greater than this value
|
|
|
|
Example :
|
|
$ echo "show table http_proxy" | socat stdio /tmp/sock1
|
|
>>> # table: http_proxy, type: 0, size:204800, used:2
|
|
>>> 0x80e6a4c: key=127.0.0.1 use=0 exp=3594729 gpc0=0 conn_rate(30000)=1 \
|
|
bytes_out_rate(60000)=187
|
|
>>> 0x80e6a80: key=127.0.0.2 use=0 exp=3594740 gpc0=1 conn_rate(30000)=10 \
|
|
bytes_out_rate(60000)=191
|
|
|
|
$ echo "show table http_proxy data.gpc0 gt 0" | socat stdio /tmp/sock1
|
|
>>> # table: http_proxy, type: 0, size:204800, used:2
|
|
>>> 0x80e6a80: key=127.0.0.2 use=0 exp=3594740 gpc0=1 conn_rate(30000)=10 \
|
|
bytes_out_rate(60000)=191
|
|
|
|
$ echo "show table http_proxy data.conn_rate gt 5" | \
|
|
socat stdio /tmp/sock1
|
|
>>> # table: http_proxy, type: 0, size:204800, used:2
|
|
>>> 0x80e6a80: key=127.0.0.2 use=0 exp=3594740 gpc0=1 conn_rate(30000)=10 \
|
|
bytes_out_rate(60000)=191
|
|
|
|
When the data criterion applies to a dynamic value dependent on time such as
|
|
a bytes rate, the value is dynamically computed during the evaluation of the
|
|
entry in order to decide whether it has to be dumped or not. This means that
|
|
such a filter could match for some time then not match anymore because as
|
|
time goes, the average event rate drops.
|
|
|
|
It is possible to use this to extract lists of IP addresses abusing the
|
|
service, in order to monitor them or even blacklist them in a firewall.
|
|
Example :
|
|
$ echo "show table http_proxy data.gpc0 gt 0" \
|
|
| socat stdio /tmp/sock1 \
|
|
| fgrep 'key=' | cut -d' ' -f2 | cut -d= -f2 > abusers-ip.txt
|
|
( or | awk '/key/{ print a[split($2,a,"=")]; }' )
|
|
|
|
/*
|
|
* Local variables:
|
|
* fill-column: 79
|
|
* End:
|
|
*/
|