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Monitoring Your Data Center Using Apache and Ganglia

Brad Nicholes Sr. Software Engineer/Consultant, Novell Member Apache Software Foundation bnicholes@apache.org. Monitoring Your Data Center Using Apache and Ganglia. Agenda Ganglia Monitoring. Introduction and Overview Ganglia Architecture Apache Web Front End Gmond & Gmetad

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Monitoring Your Data Center Using Apache and Ganglia

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  1. Brad Nicholes Sr. Software Engineer/Consultant, Novell Member Apache Software Foundation bnicholes@apache.org Monitoring Your Data CenterUsing Apache and Ganglia

  2. Agenda Ganglia Monitoring • Introduction and Overview • Ganglia Architecture • Apache Web Front End • Gmond & Gmetad • Extending Ganglia • GMetrics • Gmond Module Development • What’s New and What’s Coming

  3. Introduction and Overview • Scalable Distributed Monitoring System • Targeted at monitoring clusters and grids • Multicast-based listen/announce protocol • Depends on open standards • XML • XDR compact portable data transport • RRDTool – Round Robin Database • APR – Apache Portable Runtime • Apache HTTPD Server • PHP based web interface • Ganglia version 3.1.0 release July 2008 • http://ganglia.sourceforge.net or http://www.ganglia.info

  4. Ganglia Architecture • Gmond – Metric gathering agent installed on individual servers • Gmetad – Metric aggregation agent installed on one or more specific task oriented servers • Apache Web Front End – Metric presentation and analysis server • Characteristics • Multicast – All gmond nodes are capable of listening to and reporting on the status of the entire cluster • Failover – Gmetad has the ability to switch which cluster node it polls for metric data • Lightweight and low overhead metric gathering and transport • Ported to multiple platforms (Linux, FreeBSD, Solaris, others)

  5. Ganglia Architecture

  6. Ganglia Web Front End • Built around Apache HTTPD server using mod_php • Uses presentation templates so that the web site “look and feel” can be easily customized • Presents an overview of all nodes within a grid vs all nodes in a cluster • Ability to drill down into individual nodes • Presents both textual and graphical views

  7. Ganglia Customized Web Front End

  8. Deploying Ganglia Monitoring • See http://ganglia.wiki.sourceforge.net/ganglia_gmond_configuration • Install Gmond on all monitored nodes • Edit the configuration file • Add cluster and host information • Configure network upd_send_channel, udp_recv_channel, tcp_accept_channel • Start gmond • Installing Gmetad on an aggregation node • Edit the configuration file • Add data and failover sources • Add grid name • Start gmetad • Installing the web front end • Install Apache httpd server with mod_php • Copy Ganglia web pages and PHP code to appropriate location • Add appropriate authentication configuration for access control

  9. Gmond Gathering & Gmetad Aggregation Agents

  10. Gmond – Metric Gathering Agent • Standard Metric Modules • CPU, Network I/O, Disk I/O, Memory and System • Extensible • Loadable modules capable of gathering multiple metrics or using advanced metric gathering APIs • Gmetric – Out-of-process utility capable of invoking command line based metric gathering scripts • Built on the Apache Portable Runtime • Supports Linux, FreeBSD, Solaris and more…

  11. Gmond – Metric Gathering Agent • Automatic discovery of nodes • Adding a node does not require configuration file changes • Each node is configured independently • Each node has the ability to listen to and/or talk on the multicast channel • Can be configured for unicast connections if desired • Heartbeat metric determines the up/down status • Interfaces • Collection functions – Capable of running specialized functions for gathering metric data • Multicast I/O – Listen/Send metric data from/to other nodes in the same cluster • Data export listeners – Listen for client requests for cluster metric data

  12. Gmond – Global Configuration • Daemonize - When “yes”, gmond will daemonize • Setuid - When “yes”, gmond will set its effective UID to the uid of the user specified by the user attribute • Debug_level - When set to zero (0), gmond will run normally. Greater than zero, gmond runs in the foreground and outputs debugging information • Mute - When “yes”, gmond will not send data • Deaf - When “yes”, gmond will not receive data • Host_dmax - When set to zero (0), gmond will not delete a host from its list. If set to a positive number, gmond will flush a host after it has not heard from it for N seconds • Cleanup_threshold - Minimum amount of time before gmond will cleanup expired data • Send_metadata_interval - Establishes an interval in which gmond will send or resend the metadata packets that describe each enabled metric. • Module_dir - Optional parameter indicating the default directory where the DSO modules are located.

  13. Gmond – Cluster Configuration • Name - Specifies the name of the cluster of machines • Owner - Specifies the administrators of the cluster • Latlong - Latitude and longitude GPS coordinates of this cluster on earth • Url - Additional information about the cluster

  14. Gmond – Network Configuration • Udp_send_channel • mcast_join, mcast_if – Multicast address and interface • Host – Unicast host • Port – Multicast or Unicast port • Udp_recv_channel • mcast_join, mcast_if, Port – Multicast address, interface and port • Bind – Bind a particular local address • Family – Protocol family • Tcp_accept_channel • Bind, Port, Interface – Bind a particular local address, listen port and interface • Family – Protocol family • Timeout – Request timeout

  15. Gmond – Configuration Example globals { daemonize = yes setuid = yes user = nobody debug_level = 0 max_udp_msg_len = 1472 mute = no deaf = no host_dmax = 0 /*secs */ cleanup_threshold = 300 /*secs */ gexec = no send_metadata_interval = 0 module_dir = /usr/lib/ganglia } cluster { name = “My Cluster" owner = “Administrator" latlong = “N37.37 W122.23" url = “http://www.moreinfo.org" } udp_send_channel { mcast_join = 239.2.11.71 port = 8649 ttl = 1 } udp_recv_channel { mcast_join = 239.2.11.71 port = 8649 bind = 239.2.11.71 } tcp_accept_channel { port = 8649 }

  16. Gmond – Access Control acl { default = "deny" access { ip = 192.168.0.4 mask = 32 action = "allow" } } • Configured in upd_recv_channel or tcp_accept_channel sections • Examples: • “Deny all” with exceptions -> • “Allow all” with IPv4 & IPv6 exceptions -> acl { default = "allow" access { ip = 192.168.0.0 mask = 24 action = "deny" } access { ip = ::ff:1.2.3.0 mask = 120 action = "deny" } }

  17. Gmond – Metric Collection Groups • Specify as many collection groups as you like • Each collection group must contain at least one metric section • List available metrics by invoking “gmond -m” • Collection_group section: • Collect_once – Specifies that the group of static metrics • Collect_every – Collection interval (only valid for non-static) • Time_threshold – Max data send interval • Metric section: • Name – Metric name (see “gmond –m”) • Value_threshold – Metric variance threshold (send if exceeded) • Title – Optional user friendly title displayed in the web interface

  18. Gmond – Configuration Example collection_group { collect_every = 20 time_threshold = 90 metric { name = "load_one" value_threshold = "1.0" title = “One Minute Load Average” } metric { name = "load_five" value_threshold = "1.0" title = “Five Minute Load Average” } … } collection_group { collect_every = 80 time_threshold = 950 metric { name = "proc_run" value_threshold = "1.0" title = “Running Processes” } metric { name = "proc_total" value_threshold = "1.0" title = “Total Processes” } } collection_group { collect_once = yes time_threshold = 20 metric { name = "heartbeat" } } collection_group { collect_once = yes time_threshold = 1200 metric { name = "cpu_num" title = “CPU Count” } metric { name = "cpu_speed" title = “CPU Speed” } metric { name = "mem_total" title = “Memory Total” } metric { name = "swap_total" title = “Swap Total” } … }

  19. Gmetad – Metric Aggregation Agent • Polls a designated cluster node for the status of the entire cluster • Data collection thread per cluster • Ability to poll gmond or another gmetad for metric data • Failover capability • RRDTool – Storage and trend graphing tool • Defines fixed size databases that hold data of various granularity • Capable of rendering trending graphs from the smallest granularity to the largest (eg. Last hour vs last year) • Never grows larger than the predetermined fixed size • Database granularity is configurable through gmetad.conf

  20. Gmetad - Configuration • Data source and and failover designations • data_source "my cluster" [polling interval] address1:port addreses2:port ... • RRD database storage definition • RRAs "RRA:AVERAGE:0.5:1:244" "RRA:AVERAGE:0.5:24:244" "RRA:AVERAGE:0.5:168:244" "RRA:AVERAGE:0.5:672:244" "RRA:AVERAGE:0.5:5760:374" • Access control • Trusted_hosts address1 address2 … DN1 DN2 … • All_trustedOFF/on • RRD files location • rrd_rootdir "/var/lib/ganglia/rrds" • Network • xml_port 8651 • Interactive_port 8652

  21. Gmetad – Configuration Example data_source "my cluster" 10 localhost my.machine.edu:8649 1.2.3.5:8655 data_source "my grid" 50 1.3.4.7:8655 grid.org:8651 grid-backup.org:8651 data_source "another source" 1.3.4.7:8655 1.3.4.8 trusted_hosts 127.0.0.1 169.229.50.165 my.gmetad.org xml_port 8651 interactive_port 8652 rrd_rootdir "/var/lib/ganglia/rrds"

  22. Round-Robin Database Storage

  23. Round-Robin Database (RRD) • High performance data logging and graphing system for time series data • Automatic data consolidation over time • Define various Round-Robin Archives (RRA) which hold data points at decreasing levels of granularity • Multiple data points from a more granular RRA are automatically consolidated and added to a courser RRA • Constant and predictable data storage size • Old data is eliminated as new data is added to the RRD file • Amount of storage required is defined at the time the RRD file is created • RRDTool Web site: http://oss.oetiker.ch/rrdtool/

  24. Ganglia Default RRD Definition • Definition of the Round-Robin Database format is determined at database creation time • Default Ganglia RRA definitions: • RRA #1 – 15 second average for 61 minutes • RRA #2 – 6 minute average for 24.4 hours • RRA #3 – 42 minute average for 7.1 days • RRA #4 – 2.8 hour average for 28.5 days • RRA #5 – 24 hour average for 374 days • Default largest retrievable time series, ~1 year • Configurable to whatever you want

  25. Retrieving Data, Generating Graphs and Interacting with RRD Files • RRDFetch – Retrieve time series data from an RRD file for a specific time period • RRDInfo – Print header data from an RRD file in a parsing friendly format • RRDGraph – Creates a graphical representation of the specified time series data • RRDUpdate – Feed new data values into an RRD file • Other APIs – RRDCreate, RRDDump, RRDFirst, RRDLast, RRDLastupdate, RRDResize, …

  26. Extending the Ganglia Monitoring System

  27. Gmetric Service Level Metrics Utility • Extends the available metrics that can be produced through Gmond • Ability to run specialized metric gathering scripts • Pushes metric data back through Gmond • Must be scheduled through cron rather than Gmond • Gmetric repository on Ganglia project site • http://ganglia.sourceforge.net/gmetric/

  28. Gmetric Command Line gmetric --conf=./custom.conf -n "wow" -v "it works" -t "string" Usage: gmetric [OPTIONS]... -h, --help Print help and exit -V, --version Print version and exit -c, --conf=STRING The configuration file to use for finding send channels (default=`/etc/gmond.conf') -n, --name=STRING Name of the metric -v, --value=STRING Value of the metric -t, --type=STRING Either string|int8|uint8|int16|uint16|int32|uint32|float|double -u, --units=STRING Unit of measure for the value e.g. Kilobytes, Celcius (default=`') -s, --slope=STRING Either zero|positive|negative|both (default=`both') -x, --tmax=INT The maximum time in seconds between gmetric calls (default=`60') -d, --dmax=INT The lifetime in seconds of this metric (default=`0')

  29. Gmond Pluggable Metric Modules • Extends the available metrics that can be gathered by Gmond • Implemented as dynamically loadable modules • Configured through gmond.conf • Scheduled through Gmond rather than an external scheduler • Module structure is similar to an Apache module • Able to produce multiple metrics from a single module

  30. Gmond Module Development • Three callback interfaces • Init int (*ex_metric_init)(apr_pool_t *p); • Clean up void (*ex_metric_cleanup)(void); • Handler g_val_t (*ex_metric_handler)(int metric_index); • Metric definition structure mmodule example_module = { STD_MMODULE_STUFF, // Internal module definition ex_metric_init, // Metric init callback function ex_metric_cleanup, // Metric cleanup callback function ex_metric_info, // Metric info data structure ex_metric_handler, // Metric handler };

  31. Gmond Example Module static const Ganglia_25metric ex_metric_info[] = { {0, "Random_Numbers", 90, GANGLIA_VALUE_UNSIGNED_INT, "s", both", "%u", UDP_HEADER_SIZE+8, "Example module metric (random numbers)"}, {0, "Constant_Number", 90, GANGLIA_VALUE_UNSIGNED_INT, "Num", "zero", "%u", UDP_HEADER_SIZE+8, "Example module metric(constant number)"}, {0, NULL} }; mmodule example_module = { STD_MMODULE_STUFF, ex_metric_init, ex_metric_cleanup, ex_metric_info, ex_metric_handler, }; mmodule example_module; static int ex_metric_init(apr_pool_t *p) { apr_array_header_t *list_params = example_module.module_params_list srand(time(NULL)%99); return 0; } static void ex_metric_cleanup ( void ) { } static g_val_t ex_metric_handler ( int metric_index ) { g_val_t val; switch (metric_index) { case 0: val.uint32 = rand()%99; return val; case 1: val.uint32 = 50; return val; } /* default case */ val.uint32 = 0; return val; }

  32. Gmond Example Module Configuration modules { module { name = “example_module” path = “/usr/lib/ganglia/modexample.so” Param RandomMax { Value = 75 } Param ConstantValue { Value = 25 } } } /* Define Collection Groups */ collection_group { collect_every = 10 time_threshold = 50 metric { name = “Random_Numbers” title = “Random Number Metric” value_threshold = 30.0 } } collection_group { collect_once = yes time_threshold = 20 metric { name = “Constant_Number” title = “Constant Number Metric” } }

  33. Gmond Python Module Development • Extends the available metrics that can be gathered by Gmond • Configured through the Gmond configuration file • Python module interface is similar to the C module interface • Ability to save state within the script vs. a persistent data store • Larger footprint but easier to implement new metrics

  34. Gmond Python Module Development • Three mandatory functions • metric_init(params) • Called once at module initialization time • Must return a metric description dictionary or list of dictionaries • Any other module initialization can also take place here • metric_handler(name) – may have multiple handlers • Metric gathering handler • Must return a single data value of the same type as specified in the metric description dictionary returned by metric_init() function • metric_cleanup() • Called once at module termination time • Does not return a value

  35. Gmond Python Module Development • Metric definition data dictionary d = {‘name’: ‘<your_metric_name>’, ‘call_back’: <call_back function>, ‘time_max’: int(<your_time_max>), ‘value_type’: ‘<string | uint | float | double>’, ‘units’: ’<your_units>’, ‘slope’: ‘<zero | positive | negative | both>’, ‘format’: ‘<your_format>’, ‘description’: ‘<your_description>’, ‘groups’: ‘<group names>’} • Can be a single dictionary or a list of dictionaries • Must be returned from the metric_init() function

  36. Gmond Python Module Development Curve_Max = 15 v = int(1) inc = int(1) count = 0 def metric_init(params): global Curve_Max if ‘CurveMax’ in params: Curve_Max = int(params[‘CurveMax’]) d = {‘name’: ‘Curve_Metric’, ‘call_back’: curve_handler, ‘time_max': int(60), ‘value_type’: ‘uint’, ‘units’: ‘Seconds’, ‘slope’: ‘both’, ‘format’: ‘%u’, ‘description’: ‘Shows a uniform curve’, ‘groups’: ‘Examples’} return d def curve_handler(name): global v,count,inc,Curve_Max v += inc count += 1 if count > Curve_Max: count = 0 inc = -inc return int(v) def metric_cleanup(): pass

  37. Gmond Python Module Deployment • Copy the .py file to the specified directory • The python modules directory is defined in the gmond.conf file • Start Gmond using the –m parameter • Shows a list of all available metrics known to Gmond • The python based metric should be in the list • Add the new python metric to a collection group just like any other metric • Restart Gmond

  38. Configuring Gmond for Python • Must load the mod_python.so pluggable module • Must specify a python module path • The ‘params’ directive specifies the python module path • Mod_python will automatically load any .py module found in the specified path • Recommend including the python metric module .pyconf files from within the same .conf file that loads the python support module • Include (‘/etc/ganglia/conf.d/*.pyconf’) modules { module { name = "python_module" path = "/usr/lib/ganglia/modpython.so" params = "/usr/lib/ganglia/python_modules" } }

  39. What’s New and What’s Coming • New metric modules • Track individual CPUs • Track individual logical disks • Track TCP connections and status • Python version of Gmetad • Provides a pluggable module interface • Modules can modify how metrics are stored • Modules can be written to analyze metrics and produce events • Ability to enable/disable modules using a configuration directive • Pluggable web views • Spoofing modules – modules that can report metrics on behalf of another host

  40. Questions

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