pcp2spark [-5CGHIjLmnrRvV?] [-4 action] [-8|-9 limit] [-a archive] [-A align] [--archive-folio folio] [-b|-B space-scale] [-c config] [--container container] [--daemonize] [-e derived] [-g server] [-h host] [-i instances] [-J rank] [-K spec] [-N predicate] [-O origin] [-p port] [-P|-0 precision] [-q|-Q count-scale] [-s samples] [-S starttime] [-t interval] [-T endtime] [-y|-Y time-scale] metricspec [...]
pcp2spark is a customizable performance metrics exporter tool from PCP to Apache Spark. Any available performance metric, live or archived, system and/or application, can be selected for exporting using either command line arguments or a configuration file.
pcp2spark acts as a bridge which provides a network socket stream on a given address/port which an Apache Spark worker task can connect to and pull the configured PCP metrics from pcp2spark exporting them using the streaming extensions of the Apache Spark API.
pcp2spark is a close relative of pmrep(1). Please refer to pmrep(1) for the metricspec description accepted on pcp2spark command line and pmrep.conf(5) for description of the pcp2spark.conf configuration file overall syntax, this page describes pcp2spark specific options and configuration file differences with pmrep.conf(5). pmrep(1) also lists some usage examples of which most are applicable with pcp2spark as well.
Only the command line options listed on this page are supported, other options recognized by pmrep(1) are not supported.
Options via environment values (see pmGetOptions(3)) override the corresponding built-in default values (if any). Configuration file options override the corresponding environment variables (if any). Command line options override the corresponding configuration file options (if any).
A general setup for making use of pcp2spark would involve the user configuring pcp2spark for the PCP metrics to export followed by starting the pcp2spark application. The pcp2spark application will then wait and listen on the given address/port for a connection from an Apache Spark worker thread to be started. The worker thread will then connect to pcp2spark.
When an Apache Spark worker thread has connected pcp2spark will begin streaming PCP metric data to Apache Spark until the worker thread completes or the connection is interrupted. If the connectionis interrupted or the socket is closed from the Apache Spark worker thread pcp2spark will exit.
For an example Apache Spark worker job which will connect to an pcp2spark instance on a given address/port and pull in PCP metric data please see the example provided in the PCP examples directory for pcp2spark (often provided by the PCP development package) or the online version at https://github.com/performancecopilot/pcp/blob/master/src/pcp2spark/.
pcp2spark uses a configuration file with overall syntax described in pmrep.conf(5). The following options are common with pmrep.conf: version, source, speclocal, derived, header, globals, samples, interval, type, type_prefer, ignore_incompat, names_change, instances, live_filter, rank, limit_filter, limit_filter_force, invert_filter, predicate, omit_flat, include_labels, precision, precision_force, count_scale, count_scale_force, space_scale, space_scale_force, time_scale, time_scale_force. The output option is recognized but ignored for pmrep.conf compatibility. spark_server (string) Specify the address on which pcp2spark will listen for connections from an Apache Spark worker thread. Corresponding command line option is -g. Default is 127.0.0.1. spark_port (integer) Specify the port to run pcp2spark on. Corresponding command line option is -p. Default is 44325.
pcp2spark specific options
Specify the address on which pcp2spark will listen for connections from an Apache Spark worker thread. Corresponding command line option is -g. Default is 127.0.0.1.
Specify the port to run pcp2spark on. Corresponding command line option is -p. Default is 44325.
The available command line options are:
- -0 precision, --precision-force=precision
Like -P but this option will override per-metric specifications.
- -4 action, --names-change=action
Specify which action to take on receiving a metric names change event during sampling. These events occur when a PMDA discovers new metrics sometime after starting up, and informs running client tools like pcp2spark. Valid values for action are update (refresh metrics being sampled), ignore (do nothing - the default behaviour) and abort (exit the program if such an event happens).
- -5, --ignore-unknown
Silently ignore any metric name that cannot be resolved. At least one metric must be found for the tool to start.
- -8 limit, --limit-filter=limit
Limit results to instances with values above/below limit. A positive integer will include instances with values at or above the limit in reporting. A negative integer will include instances with values at or below the limit in reporting. A value of zero performs no limit filtering. This option will not override possible per-metric specifications. See also -J and -N.
- -9 limit, --limit-filter-force=limit
Like -8 but this option will override per-metric specifications.
- -a archive, --archive=archive
Performance metric values are retrieved from the set of Performance Co-Pilot (PCP) archive log files identified by the archive argument, which is a comma-separated list of names, each of which may be the base name of an archive or the name of a directory containing one or more archives.
- -A align, --align=align
Force the initial sample to be aligned on the boundary of a natural time unit align. Refer to PCPIntro(1) for a complete description of the syntax for align.
Read metric source archives from the PCP archive folio created by tools like pmchart(1) or, less often, manually with mkaf(1).
- -b scale, --space-scale=scale
Unit/scale for space (byte) metrics, possible values include bytes, Kbytes, KB, Mbytes, MB, and so forth. This option will not override possible per-metric specifications. See also pmParseUnitsStr(3).
- -B scale, --space-scale-force=scale
Like -b but this option will override per-metric specifications.
- -c config, --config=config
Specify the config file to use. The default is the first found of: ./pcp2spark.conf,
$PCP_SYSCONF_DIR/pcp2spark.conf. For details, see the above section and pmrep.conf(5).
Fetch performance metrics from the specified container, either local or remote (see -h).
- -C, --check
Exit before reporting any values, but after parsing the configuration and metrics and printing possible headers.
Daemonize on startup.
- -e derived, --derived=derived
Specify derived performance metrics. If derived starts with a slash (“/”) or with a dot (“.”) it will be interpreted as a derived metrics configuration file, otherwise it will be interpreted as comma- or semicolon-separated derived metric expressions. For details see pmLoadDerivedConfig(3) and pmRegisterDerived(3).
- -g server, --spark-server=server
Spark server to send the metrics to.
- -G, --no-globals
Do not include global metrics in reporting (see pmrep.conf(5)).
- -h host, --host=host
Fetch performance metrics from pmcd(1) on host, rather than from the default localhost.
- -H, --no-header
Do not print any headers.
- -i instances, --instances=instances
Report only the listed instances from current instances (if present, see also -j). By default all instances, present and future, are reported. This is a global option that is used for all metrics unless a metric-specific instance definition is provided as part of a metricspec. By default single-valued “flat” metrics without multiple instances are still reported as usual, use -v to change this. Please refer to pmrep(1) for more details on this option.
- -I, --ignore-incompat
Ignore incompatible metrics. By default incompatible metrics (that is, their type is unsupported or they cannot be scaled as requested) will cause pcp2spark to terminate with an error message. With this option all incompatible metrics are silently omitted from reporting. This may be especially useful when requesting non-leaf nodes of the PMNS tree for reporting.
- -j, --live-filter
Perform instance live filtering. This allows capturing all filtered instances even if processes are restarted at some point (unlike without live filtering). Performing live filtering over a huge amount of instances will add some internal overhead so a bit of user caution is advised. See also -n.
- -J rank, --rank=rank
Limit results to highest/lowest ranked instances of set-valued metrics. A positive integer will include highest valued instances in reporting. A negative integer will include lowest valued instances in reporting. A value of zero performs no ranking. Ranking does not imply sorting, see -6. See also -8.
- -K spec, --spec-local=spec
When fetching metrics from a local context (see -L), the -K option may be used to control the DSO PMDAs that should be made accessible. The spec argument conforms to the syntax described in pmSpecLocalPMDA(3). More than one -K option may be used.
- -L, --local-PMDA
Use a local context to collect metrics from DSO PMDAs on the local host without PMCD. See also -K.
- -m, --include-labels
Include metric labels in the output.
- -n, --invert-filter
Perform ranking before live filtering. By default instance live filtering (when requested, see -j) happens before instance ranking (when requested, see -J). With this option the logic is inverted and ranking happens before live filtering.
- -N predicate, --predicate=predicate
Specify a comma-separated list of predicate filter reference metrics. By default ranking (see -J) happens for each metric individually. With predicates, ranking is done only for the specified predicate metrics. When reporting, rest of the metrics sharing the same instance domain (see PCPIntro(1)) as the predicate will include only the highest/lowest ranking instances of the corresponding predicate. Ranking does not imply sorting, see -6.
So for example, using proc.memory.rss (resident memory size of process) as the predicate metric together with proc.io.total_bytes and mem.util.used as metrics to be reported, only the processes using most/least (as per -J) memory will be included when reporting total bytes written by processes. Since mem.util.used is a single-valued metric (thus not sharing the same instance domain as the process-related metrics), it will be reported as usual.
- -O origin, --origin=origin
When reporting archived metrics, start reporting at origin within the time window (see -S and -T). Refer to PCPIntro(1) for a complete description of the syntax for origin.
- -p port, --spark-port=port
Spark server port.
- -P precision, --precision=precision
Use precision for numeric non-integer output values. The default is to use 3 decimal places (when applicable). This option will not override possible per-metric specifications.
- -q scale, --count-scale=scale
Unit/scale for count metrics, possible values include count x 10^-1, count, count x 10, count x 10^2, and so forth from 10^-8 to 10^7. (These values are currently space-sensitive.) This option will not override possible per-metric specifications. See also pmParseUnitsStr(3).
- -Q scale, --count-scale-force=scale
Like -q but this option will override per-metric specifications.
- -r, --raw
Output raw metric values, do not convert cumulative counters to rates. This option will override possible per-metric specifications.
- -R, --raw-prefer
Like -r but this option will not override per-metric specifications.
- -s samples, --samples=samples
The samples argument defines the number of samples to be retrieved and reported. If samples is 0 or -s is not specified, pcp2spark will sample and report continuously (in real time mode) or until the end of the set of PCP archives (in archive mode). See also -T.
- -S starttime, --start=starttime
When reporting archived metrics, the report will be restricted to those records logged at or after starttime. Refer to PCPIntro(1) for a complete description of the syntax for starttime.
- -t interval, --interval=interval
Set the reporting interval to something other than the default 1 second. The interval argument follows the syntax described in PCPIntro(1), and in the simplest form may be an unsigned integer (the implied units in this case are seconds). See also the -T option.
- -T endtime, --finish=endtime
When reporting archived metrics, the report will be restricted to those records logged before or at endtime. Refer to PCPIntro(1) for a complete description of the syntax for endtime.
When used to define the runtime before pcp2spark will exit, if no samples is given (see -s) then the number of reported samples depends on interval (see -t). If samples is given then interval will be adjusted to allow reporting of samples during runtime. In case all of -T, -s, and -t are given, endtime determines the actual time pcp2spark will run.
- -v, --omit-flat
Omit single-valued “flat” metrics from reporting, only consider set-valued metrics (i.e., metrics with multiple values) for reporting. See -i and -I.
- -V, --version
Display version number and exit.
- -y scale, --time-scale=scale
Unit/scale for time metrics, possible values include nanosec, ns, microsec, us, millisec, ms, and so forth up to hour, hr. This option will not override possible per-metric specifications. See also pmParseUnitsStr(3).
- -Y scale, --time-scale-force=scale
Like -y but this option will override per-metric specifications.
- -?, --help
Display usage message and exit.
pcp2spark configuration file (see -c)
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).
mkaf(1), PCPIntro(1), pcp(1), pcp2elasticsearch(1), pcp2graphite(1), pcp2influxdb(1), pcp2json(1), pcp2xlsx(1), pcp2xml(1), pcp2zabbix(1), pmcd(1), pminfo(1), pmrep(1), pmGetOptions(3), pmSpecLocalPMDA(3), pmLoadDerivedConfig(3), pmParseUnitsStr(3), pmRegisterDerived(3), LOGARCHIVE(5), pcp.conf(5), PMNS(5) and pmrep.conf(5).
pcp2elasticsearch(1), pcp2graphite(1), pcp2influxdb(1), pcp2json(1), pcp2xlsx(1), pcp2xml(1), pcp2zabbix(1), pmrep(1), pmrepconf(1).