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How to write LCFG components for EDG

How to write LCFG components for EDG. Updated 9/2002 German.Cancio@cern.ch. Overview. LCFG – short reminder Slides stolen from Enrico and Massimo / INFN Writing Components for EDG usage Outlook: LCFGng and => release 2 Documentation and links. LCFG – short reminder. WP4 & LCFG.

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How to write LCFG components for EDG

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  1. How to write LCFG components for EDG Updated 9/2002 German.Cancio@cern.ch

  2. Overview • LCFG – short reminder Slides stolen from Enrico and Massimo / INFN • Writing Components for EDG usage • Outlook: LCFGng and => release 2 • Documentation and links

  3. LCFG – short reminder

  4. WP4 & LCFG • LCFG is originally developed by the Computer Science Department of Edinburgh University • Handles automated installation, configuration and management of machines • Basic features: • automatic installation of O.S. • installation/upgrade/removal of all (rpm-based) software packages • centralized configuration and management of machines • extendible to configure and manage custom application software

  5. <inet> <allow cfg:template="allow_$ tag_$ daemon_$"> <allow_RECORD cfg:name="telnet"> <allow>192.168., 192.135.30.</allow> </allow_RECORD> ..... </auth> <user_RECORD cfg:name="mickey"> <userhome>/home/MickeyMouseHome</userhome> <usershell>/bin/tcsh</usershell> </user_RECORD> XML profiles Config files +inet.services telnet login ftp +inet.allow telnet login ftp sshd +inet.allow_telnet ALLOWED_NETWORKS +inet.allow_login ALLOWED_NETWORKS +inet.allow_ftp ALLOWED_NETWORKS +inet.allow_sshd ALL +inet.daemon_sshd yes ..... +auth.users myckey +auth.userhome_mickey /home/mickey +auth.usershell_mickey /bin/tcsh LCFG Config Files Read Profile Load Profile HTTP rdxprof ldxprof /etc/shadow Profile Generic /etc/group Object Make XML Profile Component /etc/passwd .... mickey:x:999:20::/home/Mickey:/bin/tcsh .... Web Server Local cache /etc/services XML Profile LCFG Objects /etc/inetd.conf Profile /etc/hosts.allow in.telnetd : 192.168., 192.135.30. in.rlogind : 192.168., 192.135.30. in.ftpd : 192.168., 192.135.30. sshd : ALL Object Client nodes Server inet auth LCFG diagram Abstract configuration parameters for all nodes stored in a central repository A collection of agents read configuration parameters and either generate traditional config files or directly manipulate various services

  6. LCFG configuration (I) • Most of the configuration data are common for a category of nodes (e.g. diskservers, computing nodes) and only a few are node-specific (e.g. hostname, IP-address) • Using the cpp preprocessor it is possible to build a hierarchical structure of config files containing directives like #define, #include, #ifdef, comments with /* */, etc... • The configuration of a typical LCFG node looks like this: #define HOSTNAME pc239 /* Host specific definitions */ #include "site.h" /* Site specific definitions */ #include "linuxdef.h" /* Common linux resources */ #include "client.h" /* LCFG client specific resources */

  7. LCFG configuration (II) From "site.h" #define LCFGSRV grid01 #define URL_SERVER_CONFIG http://grid01/lcfg #define LOCALDOMAIN .lnl.infn.it #define DEFAULT_NAMESERVERS 192.135.30.245 [...] From "linuxdef.h" update.interfaces eth0 update.hostname_eth0 HOSTNAME update.netmask_eth0 NETMASK [...] From "client.h" update.disks hda update.partitions_hda hda1 hda2 update.pdetails_hda1 free / update.pdetails_hda2 128 swap auth.users mickey auth.usercomment_mickey Mickey Mouse auth.userhome_mickey /home/Mickey [...]

  8. LCFG: configuration changes • Server-side: when the config files are modified, a tool (mkxprof) recreates the new xml profile for all the nodes affected by the changes • this can be done manually or with a daemon periodically checking for config changes and calling mkxprof • mkxprof can notify via UDP the nodes affected by the changes • Client-side: another tool (rdxprof) downloads the new profile from the server • usually activated by an LCFG component at boot • can be configured to work as • daemon periodically polling the server • daemon waiting for notifications • started by cron at predefined times

  9. LCFG components for EDG usage

  10. LCFG: what’s a component? • Component == object • It's a simple shell script (but in LCFGng it can be a perl script) • Each component provides a number of “methods” (start, stop, reconfig,...) which are invoked at appropriate times • A simple and typical object behaviour: • Started when notified of a configuration change • Loads its configuration (locally cached) • Configures the appropriate services, by translating config parameters into a traditional config file and reloading a service if necessary (e.g. restarting a init.d service).

  11. LCFG: custom components • LCFG provides components to manage the configuration of services of a machine: inet, auth, nfs, cron, ... • Admins can build new custom components to configure and manage their own applications: • define your custom “resources” (configuration parameters) • Write a script containing standard methods with your custom code. • Include in your script a generic library, which contains the definition of common function used by all components (config loading, log, output, ...) • For simple components usually just a few lines of code

  12. Writing LCFG components for EDG • Software written for EDG should be portable to whatever farm management system is used. • It is therefore recommended to use whenever possible, standard SysV procedures for managing services: init.d scripts and chkconfig. • LCFG should not be used for replacing existing SysV init.d functionality! • LCFG should be used for • retrieving configuration information from the CDB and recreate local config files • Restarting services if needed via init.d scripts (restart/reload) • Enabling/disabling SysV services to match the configuration DB’s contents (using chkconfig)

  13. LCFG component methods for EDG Methods to implement: • Configure(): Reconfigures the service and notifies running processes. The most important method for EDG usage. • Start(): ‘starts’ the component. Should only call Configure() for EDG usage. • Methods not recommended for EDG: • Stop(), Run(), Suspend(), Resume(), Lock(), Query() • Doc(): use a .pod file instead.

  14. EDG / LCFG component template (I) #!/bin/bash2 class=mycomp # set the name of the component (mycomp) . /etc/obj/generic # include std methods and definitions # Start the component Start() { } # Do the configuration Configure() { } # 'main' program Case “$1” in configure) Configure;; *) DoMethod “$@”;; esac

  15. LCFG component template (II) • Start() method: # ‘Start’ the component Start() { Generic_Start; # standard setup steps Configure; # reconfigure the component if [ $? = 0 ]; then OK "Component mycomp started" else Fail "Starting component mycomp" fi }

  16. LCFG component template (III) • Configure() method: # Do the configuration Configure() { LoadResources myresource1 myresource2 … CheckResources myresource1 myresource2 … # your code do_whatever … return status; }

  17. LCFG component template (IV) • The specific part in the configure() method will usually contain three steps: # 1. Load myconfig resource as environment variable LoadResources myconfig CheckResources myconfig # 2. Generate (or update) config file sed –e “s%MYCONFIG%$myconfig%” \ /etc/obj/conf/myconfigtemplate > /etc/myconfig # 3. Reload/restart a service if neccessary /etc/rc.d/init.d/myservice reload

  18. EDG relevant built-in standard functions • LoadResources resource1 resource2 …: loads resources into the environment • CheckResources resource1 resource2 …: checks that resources are defined in the environment, fails otherwise • Fail string: prints out a [FAIL] message and exits ($? = 1) • Warn string: prints out [WARNING] message • OK string: prints out [OK] message • LogMessage string: Adds message to logfile (see also the /etc/obj/generic file)

  19. Configuration information (I) Configuration information is stored on the LCFG server in two types of files: • The resource definition files (.def) • The normal .h & machine configuration files.

  20. Configuration information (II) 1. The .def files contain default resource information: mycomp.def # component name class mycomp # implemented methods methods start configure # defined resources and defaults myconfig1 myconfig2 defaultvalue2

  21. Configuration information (III) 2. The normal .h & machine config files, where the default configuration is enhanced/overwritten: mycomponent.<resource> <value> mycomp.myconfig1 whatevervalue mycomp.myconfig2 whateverothervalue Some special resources have to be declared for including a component to be deployed: # add to profile (always needed) EXTRA(profile.components) mycomp # start on boot time (if required) EXTRA(boot.services) mycomp # method to call on runtime config changes (if required) profile.reconfig_mycomp configure

  22. More complex configurations • Sometimes, key-value pairs are not sufficient for the required configurations. • For example: arrays or lists • LCFG has a mechanism for mapping hierarchical structures into key-value pairs… • Table with person names, ages, and phone numbers (.def file) @persons age_$ phone_$ persons age_$ phone_$

  23. More complex configurations (II) Now we want to add the following to the node config: • John, 35, 12346 and Phil, 21, 54321 The node config file will look like: mycomp.persons John Phil mycomp.age_John 35 mycomp.phone_John 12346 mycomp.age_Phil 21 mycomp.phone_Phil 54321 The persons, age_John, phone_John, age_Phil, phone_Phil resources will be accessible as environment variables as any other resource.

  24. More complex configurations (III) The component accessing the info needs to do: LoadResources persons for i in $persons ; do LoadResources age_$i phone_$i agehlp=age_$i ; age=${!agehlp} phonehlp=phone_$i ; phone=${!phonehlp} echo name: $i – age: $age – phone: $phone ; done (using bash2 semantics)

  25. More complex configurations (IV) • Note that there is no limit in the nesting of resources (lists of lists are possible as well as lists of lists of lists) • There are some examples (obj-update) • However it is complex to handle in the current production testbed LCFG.

  26. Some tipps • Avoiddumping configuration files literally into the database @configlines configline_$ configlines 01 02 03 04 05 … configline_01 FARM=MOOH_BAR configline_02 MILK_NODE=COW_001 ... • This leads to some problems, eg. when you overwrite values for host specific values • How do you know that configline_324 is still the line you wanted to change? • Rather use a template configuration file shipped with the component RPM • Substitute relevant entries in the template cf file • With LCFGng (release 1.3) you can use a built-in template processor for this. • Keep explicit configuration information in the LCFG config files.

  27. Example ldconf - Configures /etc/ld.so.conf (Cal Loomis) .def file: class ldconf methods start configure conffile paths Resources defined on server: conffile /etc/ld.so.conf paths /usr/local/lib /opt/globus/lib

  28. Example (II) Component: Configure() method Configure() {    LoadResources  conffile paths    CheckResources conffile paths    # Update ld.so.conf file.    for i in $paths; do        line=`grep $i $conffile`        if [ -z "$line" ]; then            echo "$i" >> $conffile        fi    done    /sbin/ldconfig;    return $?;}

  29. LCFGng and => release 2

  30. LCFGng (release 1.4) Changes: • LoadResources/CheckResources disappear (all resources loaded from the beginning) • Resources are accessed as LCFG_<component>_myresource (eg. $LCFG_mycomponent_myresource) • The default start() method already calls Configure() • Improved log rotating • A template substitution processor allows for fast generation of config files • Changes documented under http://www.lcfg.org/doc/lcfg-ngeneric.pdf. • Example components available from EDG CVS. • A backwards compatibility module allows to import old-style components without any modifications. • The EDG recommendations outlined in this talk still apply.

  31. LCFGng (II) Perl component support • Components can be written also in Perl (same functionality available). • We recommend to phase out shell components. • See examples later on. (EDG only) New component configuration access library • This library allows true hierarchical configuration structure access on the client side • Implements a subset of the Node View Access API • http://cern.ch/hep-proj-grid-fabric/config/documents/nva • Implemented only for Perl components. • The server side (configuration and .def files) will continue to use key-value pairs until after release 2.

  32. Perl components in LCFGng for EDG #!/usr/bin/perl -w package LCFG::MyComp; @ISA = qw(LCFG::Component); use strict; use LCFG::Component; use LCFG::Config; # EDG specific sub Configure($$@) { my ($self,$res) = @_; my $config=LCFG::Config->new($res); my $age=$config->getValue('/persons/John/age'); $self->Fail( "too young") unless ($age>18); } new LCFG::MyComp() -> Dispatch(); The component methods are the same, but configuration access is simplified

  33. Perl components (II) $self->Info ("disks configured: ");my $disks=$config->getElement('/disks');   while ($disks->isNextElement()) {my $disk_name=$disks->getNextElement();    $self->Info (“found disk: ".$disk_name);my $partitions=$config->getElement ('/disks/'.$disk_name.'/partitions');     while ($partitions->isNextElement()) {      my $part_name=$partitions->getNextElement();      $self->Info (“found partition: ".$part_name);    }  } With the NVA API, components can browse complex configurations, structured as trees

  34. Documentation and links • LCFGng ‘out of the box’: http://www.lcfg.org • EDG components and extensions: Check on the EDG CVS repository, http://datagrid.in2p3.fr -> fabric_mgt/edg-lcfg • New EDG configuration access API: • http://cern.ch/hep-proj-grid-fabric/config/documents/nva • Documentation (HOW-TO): • http://datagrid.in2p3.fr/cgi-bin/cvsweb.cgi/fabric_mgt/edg-lcfg/COMPONENTS-HOWTO • WP4-install homepage: http://cern.ch/wp4-install

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