pmcd(1) — Linux manual page
PMCD(1) General Commands Manual PMCD(1)
NAME
pmcd - performance metrics collector daemon
SYNOPSIS
pmcd [-AfQSv?] [-c config] [-H hostname] [-i ipaddress] [-l
logfile] [-L bytes] [-[n|N] pmnsfile] [-p port[,port ...]] [-q
timeout] [-s sockname] [-t timeout] [-T traceflag] [-U username]
[-x file]
DESCRIPTION
pmcd is the collector used by the Performance Co-Pilot (see
PCPIntro(1)) to gather performance metrics on a system. As a
rule, there must be an instance of pmcd running on a system for
any performance metrics to be available to the PCP.
pmcd accepts connections from client applications running either
on the same machine or remotely and provides them with metrics
and other related information from the machine that pmcd is
executing on. pmcd delegates most of this request servicing to a
collection of Performance Metrics Domain Agents (or just agents),
where each agent is responsible for a particular group of
metrics, known as the domain of the agent. For instance, the
postgresql agent is responsible for reporting information
relating to the PostgreSQL database, such as the transaction and
query counts, indexing and replication statistics, and so on.
The agents may be processes started by pmcd, independent
processes or Dynamic Shared Objects (DSOs, see dlopen(3))
attached to pmcd's address space. The configuration section
below describes how connections to agents are specified.
Note that if a PDU exchange with an agent times out, the agent
has violated the requirement that it delivers metrics with little
or no delay. This is deemed a protocol failure and the agent is
disconnected from pmcd. Any subsequent requests for information
from the agent will fail with a status indicating that there is
no agent to provide it.
It is possible to specify access control to pmcd based on users,
groups and hosts. This allows one to prevent users, groups of
users, and certain hosts from accessing the metrics provided by
pmcd and is described in more detail in the access control
section below.
OPTIONS
The available command line options are:
-A Disable service advertisement. By default, pmcd will
advertise its presence on the network using any available
mechanisms (such as Avahi/DNS-SD), assisting remote
monitoring tools with finding it. These mechanisms are
disabled with this option.
-c config, --config=config
On startup pmcd uses a configuration file from either the
$PCP_PMCDCONF_PATH, configuration variable in /etc/pcp.conf,
or an environment variable of the same name. However, these
values may be overridden with config using this option. The
format of this configuration file is described below.
-f, --foreground
By default pmcd is started as a daemon. The -f option
indicates that it should run in the foreground. This is
most useful when trying to diagnose problems with
misbehaving agents.
-H hostname, --hostname=hostname
This option can be used to set the hostname that pmcd will
use to represent this instance of itself. This is used by
client tools like pmlogger(1) when reporting on the
(possibly remote) host. If this option is not set, the
pmcd.hostname metric will match that returned by
pmhostname(1). Refer to the manual page for that tool for
full details on how the hostname is evaluated.
-i ipaddress, --interface=ipaddress
This option is usually only used on hosts with more than one
network interface. If no -i options are specified pmcd
accepts connections made to any of its host's IP (Internet
Protocol) addresses. The -i option is used to specify
explicitly an IP address that connections should be accepted
on. ipaddress should be in the standard dotted form (e.g.
100.23.45.6). The -i option may be used multiple times to
define a list of IP addresses. Connections made to any
other IP addresses the host has will be refused. This can
be used to limit connections to one network interface if the
host is a network gateway. It is also useful if the host
takes over the IP address of another host that has failed.
In such a situation only the standard IP addresses of the
host should be given (not the ones inherited from the failed
host). This allows PCP applications to determine that a
host has failed, rather than connecting to the host that has
assumed the identity of the failed host.
-l logfile, --log=logfile
By default a log file named pmcd.log is written in the
directory $PCP_LOG_DIR/pmcd. The -l option causes the log
file to be written to logfile instead of the default. If
the log file cannot be created or is not writable, output is
written to the standard error instead.
-L bytes
PDUs received by pmcd from monitoring clients are restricted
to a maximum size of 65536 bytes by default to defend
against Denial of Service attacks. The -L option may be
used to change the maximum incoming PDU size.
-n pmnsfile, --namespace=pmnsfile
Normally pmcd loads the default Performance Metrics Name
Space (PMNS) from $PCP_VAR_DIR/pmns/root, however if the -n
option is specified an alternative namespace is loaded from
the file pmnsfile.
-N pmnsfile, --uniqnames=pmnsfile
Same function as -n, except for the handling of duplicate
Performance Metric Identifiers (PMIDs) in pmnsfile -
duplicate names are allowed with -n but they are not allowed
with -N.
-p port, --port=port
Specify port to listen on. By default port 44321 is used.
-q timeout
The pmcd to agent version exchange protocol (new in PCP 2.0
- introduced to provide backward compatibility) uses this
timeout to specify how long pmcd should wait before assuming
that no version response is coming from an agent. If this
timeout is reached, the agent is assumed to be an agent
which does not understand the PCP 2.0 protocol. The default
timeout interval is three seconds, but the -q option allows
an alternative timeout interval (which must be greater than
zero) to be specified. The unit of timeout is seconds.
Alternatively, if -q is not used, the PMCD_CREDS_TIMEOUT
environment variable may be used to define the timeout
interval.
-Q, --remotecert
Require that all remote client connections provide a
certificate.
-s sockname, --socket=sockname
Specify the path to a local unix domain socket (for
platforms supporting this socket family only). The default
value is $PCP_RUN_DIR/pmcd.socket.
-S, --reqauth
Require that all client connections provide user
credentials. This means that only unix domain sockets, or
authenticated connections are permitted (requires secure
sockets support). If any user or group access control
requirements are specified in the pmcd configuration file,
then this mode of operation is automatically entered,
whether the -S flag is specified or not.
-t timeout
To prevent misbehaving clients or agents from hanging the
entire Performance Metrics Collection System (PMCS), pmcd
uses timeouts on PDU exchanges with clients and agents
running as processes. By default the timeout interval is
five seconds. The -t option allows an alternative timeout
interval in seconds to be specified. If timeout is zero,
timeouts are turned off. It is almost impossible to use the
debugger interactively on an agent unless timeouts have been
turned off for its "parent" pmcd.
Once pmcd is running, the timeout may be dynamically
modified by storing an integer value (the timeout in
seconds) into the metric pmcd.control.timeout via
pmstore(1).
-T traceflag, --trace=traceflag
To assist with error diagnosis for agents and/or clients of
pmcd that are not behaving correctly, an internal event
tracing mechanism is supported within pmcd. The value of
traceflag is interpreted as a bit field with the following
control functions:
1 enable client connection tracing
2 enable PDU tracing
256 unbuffered event tracing
By default, event tracing is buffered using a circular
buffer that is over-written as new events are recorded. The
default buffer size holds the last 20 events, although this
number may be over-ridden by using pmstore(1) to modify the
metric pmcd.control.tracebufs.
Similarly once pmcd is running, the event tracing control
may be dynamically modified by storing 1 (enable) or 0
(disable) into the metrics pmcd.control.traceconn,
pmcd.control.tracepdu and pmcd.control.tracenobuf. These
metrics map to the bit fields associated with the traceflag
argument for the -T option.
When operating in buffered mode, the event trace buffer will
be dumped whenever an agent connection is terminated by
pmcd, or when any value is stored into the metric
pmcd.control.dumptrace via pmstore(1).
In unbuffered mode, every event will be reported when it
occurs.
-U username, --username=USER
User account under which to run pmcd. The default is the
unprivileged "pcp" account in current versions of PCP, but
in older versions the superuser account ("root") was used by
default.
-v, --verify
Verify the pmcd configuration file, reporting on any errors
then exiting with a status indicating verification success
or failure.
-x file
Before the pmcd logfile can be opened, pmcd may encounter a
fatal error which prevents it from starting. By default,
the output describing this error is sent to /dev/tty but it
may redirected to file.
-?, --help
Display usage message and exit.
CONFIGURATION
On startup pmcd looks for a configuration file named
$PCP_PMCDCONF_PATH. This file specifies which agents cover which
performance metrics domains and how pmcd should make contact with
the agents. An optional section specifying access controls may
follow the agent configuration data.
Warning: pmcd is usually started as part of the boot sequence and
runs initially as root. The configuration file may contain shell
commands to create agents, which will be executed by root. To
prevent security breaches the configuration file should be
writable only by root. The use of absolute path names is also
recommended.
The case of the reserved words in the configuration file is
unimportant, but elsewhere, the case is preserved.
Blank lines and comments are permitted (even encouraged) in the
configuration file. A comment begins with a ``#'' character and
finishes at the end of the line. A line may be continued by
ensuring that the last character on the line is a ``\''
(backslash). A comment on a continued line ends at the end of
the continued line. Spaces may be included in lexical elements
by enclosing the entire element in double quotes. A double quote
preceded by a backslash is always a literal double quote. A
``#'' in double quotes or preceded by a backslash is treated
literally rather than as a comment delimiter. Lexical elements
and separators are described further in the following sections.
AGENT CONFIGURATION
Each line of the agent configuration section of the configuration
file contains details of how to connect pmcd to one of its agents
and specifies which metrics domain the agent deals with. An
agent may be attached as a DSO, or via a socket, or a pair of
pipes.
Each line of the agent configuration section of the configuration
file must be either an agent specification, a comment, or a blank
line. Lexical elements are separated by whitespace characters,
however a single agent specification may not be broken across
lines unless a backslash is used to continue the line.
Each agent specification must start with a textual label (string)
followed by an integer in the range 1 to 510. The label is a tag
used to refer to the agent and the integer specifies the domain
for which the agent supplies data. This domain identifier
corresponds to the domain portion of the PMIDs handled by the
agent. Each agent must have a unique label and domain
identifier.
For DSO agents a line of the form:
label domain-no dso entry-point path
should appear. Where,
label is a string identifying the agent
domain-no
is an unsigned integer specifying the agent's domain in
the range 1 to 510
entry-point
is the name of an initialization function which will be
called when the DSO is loaded
path designates the location of the DSO and this is expected to
be an absolute pathname. pmcd is only able to load DSO
agents that have the same simabi (Subprogram Interface
Model ABI, or calling conventions) as it does (i.e. only
one of the simabi versions will be applicable). The
simabi version of a running pmcd may be determined by
fetching pmcd.simabi. Alternatively, the file(1) command
may be used to determine the simabi version from the pmcd
executable.
For a relative path the environment variable
PMCD_PATH defines a colon (:) separated list of
directories to search when trying to locate the
agent DSO. The default search path is
$PCP_SHARE_DIR/lib:/usr/pcp/lib.
For agents providing socket connections, a line of the form
label domain-no socket addr_family address [ command ]
should appear. Where,
label is a string identifying the agent
domain-no
is an unsigned integer specifying the agent's domain in
the range 1 to 510
addr_family
designates whether the socket is in the AF_INET, AF_INET6
or AF_UNIX domain, and the corresponding values for this
parameter are inet, ipv6 and unix respectively.
address
specifies the address of the socket within the previously
specified addr_family. For unix sockets, the address
should be the name of an agent's socket on the local host
(a valid address for the UNIX domain). For inet and ipv6
sockets, the address may be either a port number or a port
name which may be used to connect to an agent on the local
host. There is no syntax for specifying an agent on a
remote host as a pmcd deals only with agents on the same
machine.
command
is an optional parameter used to specify a command line to
start the agent when pmcd initializes. If command is not
present, pmcd assumes that the specified agent has already
been created. The command is considered to start from the
first non-white character after the socket address and
finish at the next newline that isn't preceded by a
backslash. After a fork(2) the command is passed
unmodified to execve(2) to instantiate the agent.
For agents interacting with the pmcd via stdin/stdout, a line of
the form:
label domain-no pipe protocol command
should appear. Where,
label is a string identifying the agent
domain-no
is an unsigned integer specifying the agent's domain
protocol
The value for this parameter should be binary.
Additionally, the protocol can include the notready
keyword to indicate that the agent must be marked as not
being ready to process requests from pmcd. The agent will
explicitly notify the pmcd when it is ready to process the
requests by sending a PM_ERR_PMDAREADY PDU. For further
details of this protocol, including a description of the
IPC parameters that can be specified in a PMDA Install
script with the ipc_prot parameter, see the relevant
section in PMDA(3).
command
specifies a command line to start the agent when pmcd
initializes. Note that command is mandatory for pipe-
based agents. The command is considered to start from the
first non-white character after the protocol parameter and
finish at the next newline that isn't preceded by a
backslash. After a fork(2) the command is passed
unmodified to execve(2) to instantiate the agent.
ACCESS CONTROL CONFIGURATION
The access control section of the configuration file is optional,
but if present it must follow the agent configuration data. The
case of reserved words is ignored, but elsewhere case is
preserved. Lexical elements in the access control section are
separated by whitespace or the special delimiter characters:
square brackets (``['' and ``]''), braces (``{'' and ``}''),
colon (``:''), semicolon (``;'') and comma (``,''). The special
characters are not treated as special in the agent configuration
section. Lexical elements may be quoted (double quotes) as
necessary.
The access control section of the file must start with a line of
the form:
[access]
In addition to (or instead of) the access section in the pmcd
configuration file, access control specifications are also read
from a file having the same name as the pmcd configuration file,
but with '.access' appended to the name. This optional file must
not contain the [access] keyword.
Leading and trailing whitespace may appear around and within the
brackets and the case of the access keyword is ignored. No other
text may appear on the line except a trailing comment.
Following this line, the remainder of the configuration file
should contain lines that allow or disallow operations from
particular hosts or groups of hosts.
There are two kinds of operations that occur via pmcd:
fetch allows retrieval of information from pmcd. This may be
information about a metric (e.g. its description, instance
domain, labels or help text) or a value for a metric. See
pminfo(1) for further information.
store allows pmcd to be used to store metric values in agents
that permit store operations. This may be the actual
value of the metric (e.g. resetting a counter to zero).
Alternatively, it may be a value used by the PMDA to
introduce a change to some aspect of monitoring of that
metric (e.g. server side event filtering) - possibly even
only for the active client tool performing the store
operation, and not others. See pmstore(1) for further
information.
Access to pmcd can be granted in three ways - by user, group of
users, or at a host level. In the latter, all users on a host
are granted the same level of access, unless the user or group
access control mechanism is also in use.
User names and group names will be verified using the local
/etc/passwd and /etc/groups files (or an alternative directory
service), using the getpwent(3) and getgrent(3) routines.
Hosts may be identified by name, IP address, IPv6 address or by
the special host specifications ``"unix:"'' or ``"local:"''.
``"unix:"'' refers to pmcd's unix domain socket, on supported
platforms. ``"local:"'' is equivalent to specifying ``"unix:"''
and ``localhost``.
Wildcards may also be specified by ending the host identifier
with the single wildcard character ``*'' as the last-given
component of an address. The wildcard ``".*"'' refers to all
inet (IPv4) addresses. The wildcard ``":*"'' refers to all IPv6
addresses. If an IPv6 wildcard contains a ``::'' component, then
the final ``*'' refers to the final 16 bits of the address only,
otherwise it refers to the remaining unspecified bits of the
address.
The wildcard ``*'' refers to all users, groups or host addresses,
including ``"unix:"''. Names of users, groups or hosts may not
be wildcarded.
The following are all valid host identifiers:
boing
localhost
giggle.melbourne.sgi.com
129.127.112.2
129.127.114.*
129.*
.*
fe80::223:14ff:feaf:b62c
fe80::223:14ff:feaf:*
fe80:*
:*
"unix:"
"local:"
*
The following are not valid host identifiers:
*.melbourne
129.127.*.*
129.*.114.9
129.127*
fe80::223:14ff:*:*
fe80::223:14ff:*:b62c
fe80*
The first example is not allowed because only (numeric) IP
addresses may contain a wildcard. The second and fifth examples
are not valid because there is more than one wildcard character.
The third and sixth contain an embedded wildcard, the fourth and
seventh have a wildcard character that is not the last component
of the address (the last components are 127* and fe80*
respectively).
The name localhost is given special treatment to make the
behavior of host wildcarding consistent. Rather than being
127.0.0.1 and ::1, it is mapped to the primary inet and IPv6
addresses associated with the name of the host on which pmcd is
running. Beware of this when running pmcd on multi-homed hosts.
Access for users, groups or hosts are allowed or disallowed by
specifying statements of the form:
allow users userlist : operations ;
disallow users userlist : operations ;
allow groups grouplist : operations ;
disallow groups grouplist : operations ;
allow hosts hostlist : operations ;
disallow hosts hostlist : operations ;
list userlist, grouplist and hostlist are comma separated lists
of one or more users, groups or host identifiers.
operations
is a comma separated list of the operation types described
above, all (which allows/disallows all operations), or all
except operations (which allows/disallows all operations
except those listed).
Either plural or singular forms of users, groups, and hosts
keywords are allowed. If this keyword is omitted, a default of
hosts will be used. This behaviour is for backward-compatibility
only, it is preferable to be explicit.
Where no specific allow or disallow statement applies to an
operation, the default is to allow the operation from all users,
groups and hosts. In the trivial case when there is no access
control section in the configuration file, all operations from
all users, groups, and hosts are permitted.
If a new connection to pmcd is attempted by a user, group or host
that is not permitted to perform any operations, the connection
will be closed immediately after an error response
PM_ERR_PERMISSION has been sent to the client attempting the
connection.
Statements with the same level of wildcarding specifying
identical hosts may not contradict each other. For example if a
host named clank had an IP address of 129.127.112.2, specifying
the following two rules would be erroneous:
allow host clank : fetch, store;
disallow host 129.127.112.2 : all except fetch;
because they both refer to the same host, but disagree as to
whether the fetch operation is permitted from that host.
Statements containing more specific host specifications override
less specific ones according to the level of wildcarding. For
example a rule of the form
allow host clank : all;
overrides
disallow host 129.127.112.* : all except fetch;
because the former contains a specific host name (equivalent to a
fully specified IP address), whereas the latter has a wildcard.
In turn, the latter would override
disallow host * : all;
It is possible to limit the number of connections from a user,
group or host to pmcd. This may be done by adding a clause of
the form
maximum n connections
to the operations list of an allow statement. Such a clause may
not be used in a disallow statement. Here, n is the maximum
number of connections that will be accepted from the user, group
or host matching the identifier(s) used in the statement.
An access control statement with a list of user, group or host
identifiers is equivalent to a set of access control statements,
with each specifying one of the identifiers in the list and all
with the same access controls (both permissions and connection
limits). A group should be used if you want users to contribute
to a shared connection limit. A wildcard should be used if you
want hosts to contribute to a shared connection limit.
When a new client requests a connection, and pmcd has determined
that the client has permission to connect, it searches the
matching list of access control statements for the most specific
match containing a connection limit. For brevity, this will be
called the limiting statement. If there is no limiting
statement, the client is granted a connection. If there is a
limiting statement and the number of pmcd clients with user ID,
group ID, or IP addresses that match the identifier in the
limiting statement is less than the connection limit in the
statement, the connection is allowed. Otherwise the connection
limit has been reached and the client is refused a connection.
Group access controls and the wildcarding in host identifiers
means that once pmcd actually accepts a connection from a client,
the connection may contribute to the current connection count of
more than one access control statement - the client's host may
match more than one access control statement, and similarly the
user ID may be in more than one group. This may be significant
for subsequent connection requests.
Note that pmcd enters a mode where it runs effectively with a
higher-level of security as soon as a user or group access
control section is added to the configuration. In this mode only
authenticated connections are allowed - either from a SASL
authenticated connection, or a Unix domain socket (which
implicitly passes client credentials). This is the same mode
that is entered explicitly using the -S option. Assuming
permission is allowed, one can determine whether pmcd is running
in this mode by querying the value of the
pmcd.feature.creds_required metric.
Note also that because most specific match semantics are used
when checking the connection limit, for the host-based access
control case, priority is given to clients with more specific
host identifiers. It is also possible to exceed connection
limits in some situations. Consider the following:
allow host clank : all, maximum 5 connections;
allow host * : all except store, maximum 2 connections;
This says that only 2 client connections at a time are permitted
for all hosts other than "clank", which is permitted 5. If a
client from host "boing" is the first to connect to pmcd, its
connection is checked against the second statement (that is the
most specific match with a connection limit). As there are no
other clients, the connection is accepted and contributes towards
the limit for only the second statement above. If the next
client connects from "clank", its connection is checked against
the limit for the first statement. There are no other
connections from "clank", so the connection is accepted. Once
this connection is accepted, it counts towards both statements'
limits because "clank" matches the host identifier in both
statements. Remember that the decision to accept a new
connection is made using only the most specific matching access
control statement with a connection limit. Now, the connection
limit for the second statement has been reached. Any connections
from hosts other than "clank" will be refused.
If instead, pmcd with no clients saw three successive connections
arrived from "boing", the first two would be accepted and the
third refused. After that, if a connection was requested from
"clank" it would be accepted. It matches the first statement,
which is more specific than the second, so the connection limit
in the first is used to determine that the client has the right
to connect. Now there are 3 connections contributing to the
second statement's connection limit. Even though the connection
limit for the second statement has been exceeded, the earlier
connections from "boing" are maintained. The connection limit is
only checked at the time a client attempts a connection rather
than being re-evaluated every time a new client connects to pmcd.
This gentle scheme is designed to allow reasonable limits to be
imposed on a first come first served basis, with specific
exceptions.
As illustrated by the example above, a client's connection is
honored once it has been accepted. However, pmcd reconfiguration
(see the next section) re-evaluates all the connection counts and
will cause client connections to be dropped where connection
limits have been exceeded.
AGENT FENCING
Preventing sampling during the life of a PMDA is sometimes
desirable, for example if that sampling impacts on sensitive
phases of a scheduled job. A temporary ``fence'' can be raised
to block all PMAPI client access to one or more agents in this
situation. This functionality is provided by the built-in PMCD
PMDA and the pmstore(1) command, as in
# pmstore -i nfsclient,kvm pmcd.agent.fenced 1
If the optional comma-separated list of agent names is omitted,
all agents will be fenced. To resume normal operation, the
``fence'' can be lowered as follows
# pmstore -i nfsclient,kvm pmcd.agent.fenced 0
Lowering the fence for all PMDAs at once is performed using
# pmstore pmcd.agent.fenced 0
Elevated privileges are required to store to the
pmcd.agent.fenced metric. For additional information, see the
help text associated with this metric, which can be accessed
using the -T, --helptext option to pminfo(1).
RECONFIGURING PMCD
If the configuration file has been changed or if an agent is not
responding because it has terminated or the PMNS has been
changed, pmcd may be reconfigured by sending it a SIGHUP, as in
# pmsignal -a -s HUP pmcd
When pmcd receives a SIGHUP, it checks the configuration file for
changes. If the file has been modified, it is re-parsed and the
contents become the new configuration. If there are errors in
the configuration file, the existing configuration is retained
and the contents of the file are ignored. Errors are reported in
the pmcd log file.
It also checks the PMNS file and any labels files for changes.
If any of these files have been modified, then the PMNS and/or
context labels are reloaded. Use of tail(1) on the log file is
recommended while reconfiguring pmcd.
If the configuration for an agent has changed (any parameter
except the agent's label is different), the agent is restarted.
Agents whose configurations do not change are not restarted. Any
existing agents not present in the new configuration are
terminated. Any deceased agents are that are still listed are
restarted.
Sometimes it is necessary to restart an agent that is still
running, but malfunctioning. Simply stop the agent (e.g. using
SIGTERM from pmsignal(1)), then send pmcd a SIGHUP, which will
cause the agent to be restarted.
STARTING AND STOPPING PMCD
Normally, pmcd is started automatically at boot time and stopped
when the system is being brought down. Under certain
circumstances it is necessary to start or stop pmcd manually. To
do this one must become superuser and type
# $PCP_RC_DIR/pmcd start
to start pmcd, or
# $PCP_RC_DIR/pmcd stop
to stop pmcd. Starting pmcd when it is already running is the
same as stopping it and then starting it again.
Sometimes it may be necessary to restart pmcd during another
phase of the boot process. Time-consuming parts of the boot
process are often put into the background to allow the system to
become available sooner (e.g. mounting huge databases). If an
agent run by pmcd requires such a task to complete before it can
run properly, it is necessary to restart or reconfigure pmcd
after the task completes. Consider, for example, the case of
mounting a database in the background while booting. If the PMDA
which provides the metrics about the database cannot function
until the database is mounted and available but pmcd is started
before the database is ready, the PMDA will fail (however pmcd
will still service requests for metrics from other domains). If
the database is initialized by running a shell script, adding a
line to the end of the script to reconfigure pmcd (by sending it
a SIGHUP) will restart the PMDA (if it exited because it couldn't
connect to the database). If the PMDA didn't exit in such a
situation it would be necessary to restart pmcd because if the
PMDA was still running pmcd would not restart it.
Normally pmcd listens for client connections on TCP/IP port
number 44321 (registered at http://www.iana.org/ ). Either the
environment variable PMCD_PORT or the -p command line option may
be used to specify alternative port number(s) when pmcd is
started; in each case, the specification is a comma-separated
list of one or more numerical port numbers. Should both methods
be used or multiple -p options appear on the command line, pmcd
will listen on the union of the set of ports specified via all -p
options and the PMCD_PORT environment variable. If non-default
ports are used with pmcd care should be taken to ensure that
PMCD_PORT is also set in the environment of any client
application that will connect to pmcd, or that the extended host
specification syntax is used (see PCPIntro(1) for details).
CAVEATS
pmcd does not explicitly terminate its children (agents), it only
closes their pipes. If an agent never checks for a closed pipe
it may not terminate.
The configuration file parser will only read lines of less than
1200 characters. This is intended to prevent accidents with
binary files.
The timeouts controlled by the -t option apply to IPC between
pmcd and the PMDAs it spawns. This is independent of settings of
the environment variables PMCD_CONNECT_TIMEOUT and
PMCD_REQUEST_TIMEOUT (see PCPIntro(1)) which may be used
respectively to control timeouts for client applications trying
to connect to pmcd and trying to receive information from pmcd.
DIAGNOSTICS
If pmcd is already running the message "Error: OpenRequestSocket
bind: Address may already be in use" will appear. This may also
appear if pmcd was shutdown with an outstanding request from a
client. In this case, a request socket has been left in the
TIME_WAIT state and until the system closes it down (after some
timeout period) it will not be possible to run pmcd.
In addition to the standard PCP debugging flags, see pmdbg(1),
pmcd currently uses the options: appl0 for tracing I/O and
termination of agents, appl1 for tracing access control and appl2
for tracing the configuration file scanner and parser.
FILES
$PCP_PMCDCONF_PATH
default configuration file
$PCP_PMCDCONF_PATH.access
optional access control specification file
$PCP_PMCDOPTIONS_PATH
command line options to pmcd when launched from
$PCP_RC_DIR/pmcd All the command line option lines should
start with a hyphen as the first character.
$PCP_SYSCONFIG_DIR/pmcd
Environment variables that will be set when pmcd executes.
Only settings of the form "PMCD_VARIABLE=value" or
"PCP_VARIABLE=value" are honoured.
$PCP_SYSCONF_DIR/labels.conf
settings related to labels used globally throughout the
PMCS.
$PCP_SYSCONF_DIR/labels
directory of files containing the global metric labels that
will be set for every client context created by pmcd. File
names starting with a ``.'' are ignored, and files ending in
``.json'' are ``JSONB'' formatted name:value pairs. The
merged set can be queried via the pmcd.labels metric.
Context labels are applied universally to all metrics.
$PCP_SYSCONF_DIR/labels/optional
directory of files containing the global metric labels that
will be set for every client context created by pmcd, but
which are flagged as optional. These labels are exactly the
same as other context labels except that they are not used
in time series identifier calculations.
./pmcd.log
(or $PCP_LOG_DIR/pmcd/pmcd.log when started automatically)
All messages and diagnostics are directed here.
$PCP_RUN_DIR/pmcd.pid
contains an ascii decimal representation of the process ID
of pmcd, when it's running.
/etc/pcp/tls.conf
OpenSSL certificate configuration information file, used for
optional Secure Socket Layer connections.
/etc/passwd
user names, user identifiers and primary group identifiers,
used for access control specifications
/etc/groups
group names, group identifiers and group members, used for
access control specifications
ENVIRONMENT
The following variables are set in $PCP_SYSCONFIG_DIR/pmcd.
In addition to the PCP environment variables described in the PCP
ENVIRONMENT section below, the PMCD_PORT variable is also
recognised as the TCP/IP port for incoming connections (default
44321), and the PMCD_SOCKET variable is also recognised as the
path to be used for the Unix domain socket.
If set to the value 1, the PMCD_LOCAL environment variable will
cause pmcd to run in a localhost-only mode of operation, where it
binds only to the loopback interface. The pmcd.feature.local
metric can be queried to determine if pmcd is running in this
mode.
The PMCD_MAXPENDING variable can be set to indicate the maximum
length to which the queue of pending client connections may grow.
The PMCD_ROOT_AGENT variable controls whether or not pmcd or
pmdaroot (when available), start subsequent PMDAs. When set to a
non-zero value, pmcd will opt to have pmdaroot start, and stop,
PMDAs.
The PMCD_RESTART_AGENTS variable determines the behaviour of pmcd
in the presence of child PMDAs that have been observed to exit
(this is a typical response in the presence of very large,
usually domain-induced, PDU latencies). When set to a non-zero
value, pmcd will attempt to restart such PMDAs once every minute.
When set to zero, it uses the original behaviour of just logging
the failure.
PCP ENVIRONMENT
Environment variables with the prefix PCP_ are used to
parameterize the file and directory names used by PCP. On each
installation, the file /etc/pcp.conf contains the local values
for these variables. The $PCP_CONF variable may be used to
specify an alternative configuration file, as described in
pcp.conf(5).
For environment variables affecting PCP tools, see
pmGetOptions(3).
SEE ALSO
PCPIntro(1), pmdbg(1), pmerr(1), pmgenmap(1), pminfo(1),
pmrep(1), pmstat(1), pmstore(1), pmval(1), getpwent(3),
getgrent(3), labels.conf(5), pcp.conf(5), pcp.env(5) and PMNS(5).
COLOPHON
This page is part of the PCP (Performance Co-Pilot) project.
Information about the project can be found at
⟨http://www.pcp.io/⟩. If you have a bug report for this manual
page, send it to pcp@groups.io. This page was obtained from the
project's upstream Git repository
⟨https://github.com/performancecopilot/pcp.git⟩ on 2024-06-14.
(At that time, the date of the most recent commit that was found
in the repository was 2024-06-14.) If you discover any rendering
problems in this HTML version of the page, or you believe there
is a better or more up-to-date source for the page, or you have
corrections or improvements to the information in this COLOPHON
(which is not part of the original manual page), send a mail to
man-pages@man7.org
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