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DOC: config: fix alphabetical ordering of layer 4 sample fetch functions

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Some misordering has been accumulating over time, making some of them
hard to spot.
This commit is contained in:
Willy Tarreau 2025-05-26 09:33:17 +02:00
parent 770098f5e3
commit 52c2247d90
1 changed files with 146 additions and 145 deletions
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291
doc/configuration.txt
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@ -22361,6 +22361,7 @@ waiting_entity : string
# Log the waiting entity, if any, and only if an error is reported
log-format "$HAPROXY_HTTP_LOG_FMT %{Q}[waiting_entity,when(error)]
7.3.3. Fetching samples at Layer 4
----------------------------------
@ -22395,21 +22396,21 @@ bc_glitches integer
bc_http_major integer
bc_nb_streams integer
bc_reused boolean
bc_rtt(<unit>) integer
bc_rttvar(<unit>) integer
bc_settings_streams_limit integer
bc_src ip
bc_src_port integer
bc_srv_queue integer
bc_settings_streams_limit integer
be_id integer
be_name string
bc_rtt(<unit>) integer
bc_rttvar(<unit>) integer
be_server_timeout integer
be_tunnel_timeout integer
bytes_in integer
bytes_out integer
cur_client_timeout integer
cur_server_timeout integer
cur_tunnel_timeout integer
cur_client_timeout integer
dst ip
dst_conn integer
dst_is_local boolean
@ -22428,145 +22429,145 @@ fc_http_major integer
fc_lost integer
fc_nb_streams integer
fc_pp_authority string
fc_pp_unique_id string
fc_pp_tlv(<id>) string
fc_pp_unique_id string
fc_rcvd_proxy boolean
fc_reordering integer
fc_retrans integer
fc_rtt(<unit>) integer
fc_rttvar(<unit>) integer
fc_sacked integer
fc_settings_streams_limit integer
fc_src ip
fc_src_is_local boolean
fc_src_port integer
fc_settings_streams_limit integer
fc_unacked integer
fe_client_timeout integer
fe_defbe string
fe_id integer
fe_name string
fe_client_timeout integer
res.timer.data integer
sc_bytes_in_rate(<ctr>[,<table>]) integer
sc0_bytes_in_rate([<table>]) integer
sc1_bytes_in_rate([<table>]) integer
sc2_bytes_in_rate([<table>]) integer
sc_bytes_out_rate(<ctr>[,<table>]) integer
sc0_bytes_out_rate([<table>]) integer
sc0_clr_gpc0([<table>]) integer
sc0_clr_gpc1([<table>]) integer
sc0_conn_cnt([<table>]) integer
sc0_conn_cur([<table>]) integer
sc0_conn_rate([<table>]) integer
sc0_get_gpc0([<table>]) integer
sc0_get_gpc1([<table>]) integer
sc0_get_gpt0([<table>]) integer
sc0_glitch_cnt([<table>]) integer
sc0_glitch_rate([<table>]) integer
sc0_gpc0_rate([<table>]) integer
sc0_gpc1_rate([<table>]) integer
sc0_http_err_cnt([<table>]) integer
sc0_http_err_rate([<table>]) integer
sc0_http_fail_cnt([<table>]) integer
sc0_http_fail_rate([<table>]) integer
sc0_http_req_cnt([<table>]) integer
sc0_http_req_rate([<table>]) integer
sc0_inc_gpc0([<table>]) integer
sc0_inc_gpc1([<table>]) integer
sc0_kbytes_in([<table>]) integer
sc0_kbytes_out([<table>]) integer
sc0_key any
sc0_sess_cnt([<table>]) integer
sc0_sess_rate([<table>]) integer
sc0_tracked([<table>]) boolean
sc0_trackers([<table>]) integer
sc1_bytes_in_rate([<table>]) integer
sc1_bytes_out_rate([<table>]) integer
sc1_clr_gpc0([<table>]) integer
sc1_clr_gpc1([<table>]) integer
sc1_conn_cnt([<table>]) integer
sc1_conn_cur([<table>]) integer
sc1_conn_rate([<table>]) integer
sc1_get_gpc0([<table>]) integer
sc1_get_gpc1([<table>]) integer
sc1_get_gpt0([<table>]) integer
sc1_glitch_cnt([<table>]) integer
sc1_glitch_rate([<table>]) integer
sc1_gpc0_rate([<table>]) integer
sc1_gpc1_rate([<table>]) integer
sc1_http_err_cnt([<table>]) integer
sc1_http_err_rate([<table>]) integer
sc1_http_fail_cnt([<table>]) integer
sc1_http_fail_rate([<table>]) integer
sc1_http_req_cnt([<table>]) integer
sc1_http_req_rate([<table>]) integer
sc1_inc_gpc0([<table>]) integer
sc1_inc_gpc1([<table>]) integer
sc1_kbytes_in([<table>]) integer
sc1_kbytes_out([<table>]) integer
sc1_key any
sc1_sess_cnt([<table>]) integer
sc1_sess_rate([<table>]) integer
sc1_tracked([<table>]) boolean
sc1_trackers([<table>]) integer
sc2_bytes_in_rate([<table>]) integer
sc2_bytes_out_rate([<table>]) integer
sc2_clr_gpc0([<table>]) integer
sc2_clr_gpc1([<table>]) integer
sc2_conn_cnt([<table>]) integer
sc2_conn_cur([<table>]) integer
sc2_conn_rate([<table>]) integer
sc2_get_gpc0([<table>]) integer
sc2_get_gpc1([<table>]) integer
sc2_get_gpt0([<table>]) integer
sc2_glitch_cnt([<table>]) integer
sc2_glitch_rate([<table>]) integer
sc2_gpc0_rate([<table>]) integer
sc2_gpc1_rate([<table>]) integer
sc2_http_err_cnt([<table>]) integer
sc2_http_err_rate([<table>]) integer
sc2_http_fail_cnt([<table>]) integer
sc2_http_fail_rate([<table>]) integer
sc2_http_req_cnt([<table>]) integer
sc2_http_req_rate([<table>]) integer
sc2_inc_gpc0([<table>]) integer
sc2_inc_gpc1([<table>]) integer
sc2_kbytes_in([<table>]) integer
sc2_kbytes_out([<table>]) integer
sc2_key any
sc2_sess_cnt([<table>]) integer
sc2_sess_rate([<table>]) integer
sc2_tracked([<table>]) boolean
sc2_trackers([<table>]) integer
sc_bytes_in_rate(<ctr>[,<table>]) integer
sc_bytes_out_rate(<ctr>[,<table>]) integer
sc_clr_gpc(<idx>,<ctr>[,<table>]) integer
sc_clr_gpc0(<ctr>[,<table>]) integer
sc0_clr_gpc0([<table>]) integer
sc1_clr_gpc0([<table>]) integer
sc2_clr_gpc0([<table>]) integer
sc_clr_gpc1(<ctr>[,<table>]) integer
sc0_clr_gpc1([<table>]) integer
sc1_clr_gpc1([<table>]) integer
sc2_clr_gpc1([<table>]) integer
sc_conn_cnt(<ctr>[,<table>]) integer
sc0_conn_cnt([<table>]) integer
sc1_conn_cnt([<table>]) integer
sc2_conn_cnt([<table>]) integer
sc_conn_cur(<ctr>[,<table>]) integer
sc0_conn_cur([<table>]) integer
sc1_conn_cur([<table>]) integer
sc2_conn_cur([<table>]) integer
sc_conn_rate(<ctr>[,<table>]) integer
sc0_conn_rate([<table>]) integer
sc1_conn_rate([<table>]) integer
sc2_conn_rate([<table>]) integer
sc_get_gpc(<idx>,<ctr>[,<table>]) integer
sc_get_gpc0(<ctr>[,<table>]) integer
sc0_get_gpc0([<table>]) integer
sc1_get_gpc0([<table>]) integer
sc2_get_gpc0([<table>]) integer
sc_get_gpc1(<ctr>[,<table>]) integer
sc0_get_gpc1([<table>]) integer
sc1_get_gpc1([<table>]) integer
sc2_get_gpc1([<table>]) integer
sc_get_gpt(<idx>,<ctr>[,<table>]) integer
sc_get_gpt0(<ctr>[,<table>]) integer
sc0_get_gpt0([<table>]) integer
sc1_get_gpt0([<table>]) integer
sc2_get_gpt0([<table>]) integer
sc_glitch_cnt(<ctr>[,<table>]) integer
sc0_glitch_cnt([<table>]) integer
sc1_glitch_cnt([<table>]) integer
sc2_glitch_cnt([<table>]) integer
sc_glitch_rate(<ctr>[,<table>]) integer
sc0_glitch_rate([<table>]) integer
sc1_glitch_rate([<table>]) integer
sc2_glitch_rate([<table>]) integer
sc_gpc_rate(<idx>,<ctr>[,<table>]) integer
sc_gpc0_rate(<ctr>[,<table>]) integer
sc0_gpc0_rate([<table>]) integer
sc1_gpc0_rate([<table>]) integer
sc2_gpc0_rate([<table>]) integer
sc_gpc1_rate(<ctr>[,<table>]) integer
sc0_gpc1_rate([<table>]) integer
sc1_gpc1_rate([<table>]) integer
sc2_gpc1_rate([<table>]) integer
sc_gpc_rate(<idx>,<ctr>[,<table>]) integer
sc_http_err_cnt(<ctr>[,<table>]) integer
sc0_http_err_cnt([<table>]) integer
sc1_http_err_cnt([<table>]) integer
sc2_http_err_cnt([<table>]) integer
sc_http_err_rate(<ctr>[,<table>]) integer
sc0_http_err_rate([<table>]) integer
sc1_http_err_rate([<table>]) integer
sc2_http_err_rate([<table>]) integer
sc_http_fail_cnt(<ctr>[,<table>]) integer
sc0_http_fail_cnt([<table>]) integer
sc1_http_fail_cnt([<table>]) integer
sc2_http_fail_cnt([<table>]) integer
sc_http_fail_rate(<ctr>[,<table>]) integer
sc0_http_fail_rate([<table>]) integer
sc1_http_fail_rate([<table>]) integer
sc2_http_fail_rate([<table>]) integer
sc_http_req_cnt(<ctr>[,<table>]) integer
sc0_http_req_cnt([<table>]) integer
sc1_http_req_cnt([<table>]) integer
sc2_http_req_cnt([<table>]) integer
sc_http_req_rate(<ctr>[,<table>]) integer
sc0_http_req_rate([<table>]) integer
sc1_http_req_rate([<table>]) integer
sc2_http_req_rate([<table>]) integer
sc_inc_gpc(<idx>,<ctr>[,<table>]) integer
sc_inc_gpc0(<ctr>[,<table>]) integer
sc0_inc_gpc0([<table>]) integer
sc1_inc_gpc0([<table>]) integer
sc2_inc_gpc0([<table>]) integer
sc_inc_gpc1(<ctr>[,<table>]) integer
sc0_inc_gpc1([<table>]) integer
sc1_inc_gpc1([<table>]) integer
sc2_inc_gpc1([<table>]) integer
sc_kbytes_in(<ctr>[,<table>]) integer
sc0_kbytes_in([<table>]) integer
sc1_kbytes_in([<table>]) integer
sc2_kbytes_in([<table>]) integer
sc_kbytes_out(<ctr>[,<table>]) integer
sc0_kbytes_out([<table>]) integer
sc1_kbytes_out([<table>]) integer
sc2_kbytes_out([<table>]) integer
sc_key(<ctr>) any
sc0_key any
sc1_key any
sc2_key any
sc_sess_cnt(<ctr>[,<table>]) integer
sc0_sess_cnt([<table>]) integer
sc1_sess_cnt([<table>]) integer
sc2_sess_cnt([<table>]) integer
sc_sess_rate(<ctr>[,<table>]) integer
sc0_sess_rate([<table>]) integer
sc1_sess_rate([<table>]) integer
sc2_sess_rate([<table>]) integer
sc_tracked(<ctr>[,<table>]) boolean
sc0_tracked([<table>]) boolean
sc1_tracked([<table>]) boolean
sc2_tracked([<table>]) boolean
sc_trackers(<ctr>[,<table>]) integer
sc0_trackers([<table>]) integer
sc1_trackers([<table>]) integer
sc2_trackers([<table>]) integer
so_id integer
so_name string
src ip
@ -22585,9 +22586,9 @@ src_get_gpt(<idx>[,<table>]) integer
src_get_gpt0([<table>]) integer
src_glitch_cnt([<table>]) integer
src_glitch_rate([<table>]) integer
src_gpc_rate(<idx>[,<table>]) integer
src_gpc0_rate([<table>]) integer
src_gpc1_rate([<table>]) integer
src_gpc_rate(<idx>[,<table>]) integer
src_http_err_cnt([<table>]) integer
src_http_err_rate([<table>]) integer
src_http_fail_cnt([<table>]) integer
@ -22690,38 +22691,6 @@ bc_nb_streams : integer
bc_reused : boolean
Returns true if the transfer was performed via a reused backend connection.
bc_src : ip
This is the source ip address of the connection on the server side, which is
the server address HAProxy connected from. It is of type IP and works on both
IPv4 and IPv6 tables. On IPv6 tables, IPv4 addresses are mapped to their IPv6
equivalent, according to RFC 4291.
bc_src_port : integer
Returns an integer value corresponding to the TCP source port of the
connection on the server side, which is the port HAProxy connected from.
bc_srv_queue : integer
Number of streams de-queued while waiting for a connection slot on the
target server. This is the equivalent of %sq in the log-format.
bc_settings_streams_limit : integer
Returns the maximum number of streams allowed on the backend connection. For
TCP and HTTP/1.1 connections, it is always 1. For other protocols, it depends
on the settings negotiated with the server.
be_id : integer
Returns an integer containing the current backend's id. It can be used in
frontends with responses to check which backend processed the request. If
used in a frontend and no backend was used, it returns the current
frontend's id. It can also be used in a tcp-check or an http-check ruleset.
be_name : string
Returns a string containing the current backend's name. It can be used in
frontends with responses to check which backend processed the request. If
used in a frontend and no backend was used, it returns the current
frontend's name. It can also be used in a tcp-check or an http-check
ruleset.
bc_rtt(<unit>) : integer
Returns the Round Trip Time (RTT) measured by the kernel for the backend
connection. <unit> is facultative, by default the unit is milliseconds. <unit>
@ -22738,6 +22707,38 @@ bc_rttvar(<unit>) : integer
operating system does not support TCP_INFO, for example Linux kernels before
2.4, the sample fetch fails.
bc_settings_streams_limit : integer
Returns the maximum number of streams allowed on the backend connection. For
TCP and HTTP/1.1 connections, it is always 1. For other protocols, it depends
on the settings negotiated with the server.
bc_src : ip
This is the source ip address of the connection on the server side, which is
the server address HAProxy connected from. It is of type IP and works on both
IPv4 and IPv6 tables. On IPv6 tables, IPv4 addresses are mapped to their IPv6
equivalent, according to RFC 4291.
bc_src_port : integer
Returns an integer value corresponding to the TCP source port of the
connection on the server side, which is the port HAProxy connected from.
bc_srv_queue : integer
Number of streams de-queued while waiting for a connection slot on the
target server. This is the equivalent of %sq in the log-format.
be_id : integer
Returns an integer containing the current backend's id. It can be used in
frontends with responses to check which backend processed the request. If
used in a frontend and no backend was used, it returns the current
frontend's id. It can also be used in a tcp-check or an http-check ruleset.
be_name : string
Returns a string containing the current backend's name. It can be used in
frontends with responses to check which backend processed the request. If
used in a frontend and no backend was used, it returns the current
frontend's name. It can also be used in a tcp-check or an http-check
ruleset.
be_server_timeout : integer
Returns the configuration value in millisecond for the server timeout of the
current backend. This timeout can be overwritten by a "set-timeout" rule. See
@ -22754,6 +22755,11 @@ bytes_in : integer
bytes_out : integer
This is the number of bytes transmitted from the server to the client.
cur_client_timeout : integer
Returns the currently applied client timeout in millisecond for the stream.
In the default case, this will be equal to fe_client_timeout unless a
"set-timeout" rule has been applied. See also "fe_client_timeout".
cur_server_timeout : integer
Returns the currently applied server timeout in millisecond for the stream.
In the default case, this will be equal to be_server_timeout unless a
@ -22764,11 +22770,6 @@ cur_tunnel_timeout : integer
In the default case, this will be equal to be_tunnel_timeout unless a
"set-timeout" rule has been applied. See also "be_tunnel_timeout".
cur_client_timeout : integer
Returns the currently applied client timeout in millisecond for the stream.
In the default case, this will be equal to fe_client_timeout unless a
"set-timeout" rule has been applied. See also "fe_client_timeout".
dst : ip
This is the destination IP address of the connection on the client side,
which is the address the client connected to. Any tcp/http rules may alter
@ -22961,10 +22962,6 @@ fc_pp_authority : string
Returns the first authority TLV sent by the client in the PROXY protocol
header, if any.
fc_pp_unique_id : string
Returns the first unique ID TLV sent by the client in the PROXY protocol
header, if any.
fc_pp_tlv(<id>) : string
Returns the TLV value for the given TLV ID. The ID must either be a numeric
value between 0 and 255 or one of the following supported symbolic names
@ -22988,6 +22985,10 @@ fc_pp_tlv(<id>) : string
typically assumed to be unique. Generally, finding duplicated TLV IDs
indicates an error on the sender side of the PROXY protocol header.
fc_pp_unique_id : string
Returns the first unique ID TLV sent by the client in the PROXY protocol
header, if any.
fc_rcvd_proxy : boolean
Returns true if the client initiated the connection with a PROXY protocol
header.
@ -23030,6 +23031,11 @@ fc_sacked : integer
if the operating system does not support TCP_INFO, for example Linux kernels
before 2.4, the sample fetch fails.
fc_settings_streams_limit : integer
Returns the maximum number of streams allowed on the frontend connection. For
TCP and HTTP/1.1 connections, it is always 1. For other protocols, it depends
on the settings negotiated with the client.
fc_src : ip
This is the original source IP address of the connection on the client side
Only "tcp-request connection" rules may alter this address. See "src" for
@ -23041,22 +23047,20 @@ fc_src_is_local : boolean
"src_is_local" for details.
fc_src_port : integer
Returns an integer value corresponding to the TCP source port of the
connection on the client side. Only "tcp-request connection" rules may alter
this address. See "src-port" for details.
fc_settings_streams_limit : integer
Returns the maximum number of streams allowed on the frontend connection. For
TCP and HTTP/1.1 connections, it is always 1. For other protocols, it depends
on the settings negotiated with the client.
fc_unacked : integer
Returns the unacked counter measured by the kernel for the client connection.
If the server connection is not established, if the connection is not TCP or
if the operating system does not support TCP_INFO, for example Linux kernels
before 2.4, the sample fetch fails.
fe_client_timeout : integer
Returns the configuration value in millisecond for the client timeout of the
current frontend. This timeout can be overwritten by a "set-timeout" rule.
fe_defbe : string
Returns a string containing the frontend's default backend name. It can be
used in frontends to check which backend will handle requests by default.
@ -23071,10 +23075,6 @@ fe_name : string
backends to check from which frontend it was called, or to stick all users
coming via a same frontend to the same server.
fe_client_timeout : integer
Returns the configuration value in millisecond for the client timeout of the
current frontend. This timeout can be overwritten by a "set-timeout" rule.
res.timer.data : integer
this is the total transfer time of the response payload till the last byte
sent to the client. In HTTP it starts after the last response header (after
@ -23692,6 +23692,7 @@ txn.redispatched : boolean
the connection is not fully established. For HTTP connections, the value may
be affected by L7 retries.
7.3.4. Fetching samples at Layer 5
----------------------------------