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version 1.1, 2001/02/07 12:49:17
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version 1.2, 2001/02/07 13:02:38
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Line 10 Scott Harrison
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Line 10 Scott Harrison
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| <P> |
<P> |
| Last updated: 02/07/2001 |
Last updated: 02/07/2001 |
| </P> |
</P> |
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<P> |
| This file describes issues associated with LON-CAPA |
This file describes issues associated with LON-CAPA |
| and a SQL database. |
and a SQL database. |
| </P> |
</P> |
| <P> |
|
| <H3>Latest HOWTO</H3> |
<H3>Latest HOWTO</H3> |
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<P> |
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I am going to begin documentation by inserting what notes |
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I have into this file. I will be subsequently rearranging |
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them and editting them based on the tests that I conduct. |
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I am trying to make sure that documentation, installation, |
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and run-time issues are all consistent and correct. The |
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current status of everything is that it works and has |
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been minimally tested, but things need to be cleaned up |
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and checked again! |
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</P> |
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<H3>How to add a user to the SQL database</H3> |
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<P> |
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<PRE> |
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start the mysql daemon as /usr/local/bin/safe_mysqld & |
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Login as root: mysql -u root -p mysql |
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enter the password as newmysql |
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add the user www: grant all priveleges on *.* to www@localhost identified by 'newmysql' with grant option; |
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|
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INSERT INTO user (Host, User, Password) |
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VALUES ('localhost','www',password('newmysql')); |
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|
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GRANT ALL PRIVILEGES ON *.* TO www@localhost; |
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FLUSH PRIVILEGES; |
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|
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Here the user www has the right to grant privileges to other users. |
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This can be changed if required with a simple update command on the grant tables |
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|
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|
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/home/httpd/perl/perlsql/lonsql |
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/usr/local/mysql/fakeclient |
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</PRE> |
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</P> |
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<H3>To do</H3> |
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<P> |
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<PRE> |
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This is the output from scripts/mysql_install_db... |
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still some todo things (like support-files/mysql.server) |
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|
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Creating db table |
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Creating host table |
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Creating user table |
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Creating func table |
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Creating tables_priv table |
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Creating columns_priv table |
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|
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To start mysqld at boot time you have to copy support-files/mysql.server |
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to the right place for your system |
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|
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PLEASE REMEMBER TO SET A PASSWORD FOR THE MySQL root USER ! |
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This is done with: |
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/usr/local/bin/mysqladmin -u root password 'new-password' |
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See the manual for more instructions. |
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|
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Please report any problems with the /usr/local/bin/mysqlbug script! |
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|
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The latest information about MySQL is available on the web at http://www.mysql.com |
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Support MySQL by buying support/licenses at http://www.tcx.se/license.htmy. |
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</PRE> |
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</P> |
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<H3>Source Installation and Manual Configuration</H3> |
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<P> |
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<PRE> |
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August, 29 2000; Scott Harrison; LON-CAPA |
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|
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These are notes related to a Perl interface and MySQL server installation |
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on Redhat 6.1 and 6.2 boxes. (Guy Albertelli and Harsha Jagasia |
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contributed significantly to this.) |
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|
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******************** |
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* MySQL COMPONENTS * |
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******************** |
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|
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There are three components to an effective MySQL installation for the |
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LON-CAPA system. |
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|
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Perl::DBI module- the API "front-end"... |
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database interface module for organizing generic |
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database commands which are independent of specific |
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database implementation (such as MySQL, mSQL, Postgres, etc). |
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|
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Perl::MySQL module- the API "mid-section"... |
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the module to directly interface with the actual |
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MySQL database engine |
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|
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MySQL database engine- the "back-end"... |
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the binary installation (compiled either from source |
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or pre-compiled file listings) which provides the |
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actual MySQL functionality on the system |
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|
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RedHat Installation- |
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|
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Initially done from source: |
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DBI-1.13.tar.gz Msql-Mysql-modules-1.2209.tar.gz mysql-3.22.32.tar.gz |
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|
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I am now using pre-compiled file listings. |
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|
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There were problems with using the RedHat packages since the three |
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different RedHat packages were somewhat noncompatible with each other |
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in terms of expected file locations. (The Debian linux distribution, |
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on the other hand, has a working set of these packages). |
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|
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Regardless of how we install these three components, there still remain |
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certain things which need to happen for the configuration. |
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|
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***************** |
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* CONFIGURATION * |
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***************** |
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|
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(Note: SOMEPASSWORD is actually set to another text string on the current |
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LON-CAPA systems.) |
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|
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Configuration is needed to generate the necessary functionality for the |
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MySQL system with LON-CAPA. |
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|
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The functionality needed can be understood from this example line |
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of perl code from "lonsql". |
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|
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$dbh = DBI->connect( "DBI:mysql:loncapa", |
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"www", |
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"SOMEPASSWORD", |
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{ RaiseError =>0,PrintError=>0}); |
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|
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There is an obvious need to CONNECT to the database, and in order to do |
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this, there must be: |
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a RUNNING mysql daemon; |
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a DATABASE named "loncapa"; |
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a USER named "www"; |
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and an ABILITY for LON-CAPA on one machine to access |
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SQL database on another machine; |
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|
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So, here are some notes on implementing these configurations. |
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|
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** RUNNING mysql daemon (safe_mysqld method) |
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|
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The recommended way to run the MySQL daemon is as a non-root user |
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(probably www)... |
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|
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so, 1) login as user www on the linux machine |
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2) start the mysql daemon as /usr/local/bin/safe_mysqld & |
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|
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safe_mysqld only works if the local installation of MySQL is set to the |
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right directory permissions which I found to be: |
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chown www:users /usr/local/var/mysql |
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chown www:users /usr/local/lib/mysql |
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chown -R www:users /usr/local/mysql |
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chown www:users /usr/local/include/mysql |
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chown www:users /usr/local/var |
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|
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** DATABASE named "loncapa" |
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As user www, run this command |
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mysql -u root -p mysql |
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enter the password as SOMEPASSWORD |
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This allows you to manually enter MySQL commands. |
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The MySQL command to generate the loncapa DATABASE is: |
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|
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CREATE DATABASE 'loncapa'; |
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|
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** USER named "www" |
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|
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As user www, run this command |
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mysql -u root -p mysql |
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enter the password as SOMEPASSWORD |
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|
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To add the user www to the MySQL server, and grant all |
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privileges on *.* to www@localhost identified by 'SOMEPASSWORD' |
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with grant option; |
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|
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INSERT INTO user (Host, User, Password) |
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VALUES ('localhost','www',password('SOMEPASSWORD')); |
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GRANT ALL PRIVILEGES ON *.* TO www@localhost; |
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|
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FLUSH PRIVILEGES; |
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|
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** ABILITY for LON-CAPA machines to communicate with SQL databases on |
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other LON-CAPA machines |
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|
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This is a little more intricate than might first be expected (and I probably |
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won't do a perfect job reciting everything in this short synopsis). Because |
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LON-CAPA machines will likely be handling many SQL requests at a time, |
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there were some problems with current MySQL capabilities. |
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|
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PROBLEM SITUATION: |
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|
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If Server A wants data from Server B, Server A uses a lonc process to |
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send a database command to a Server B lond process. |
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lonc= loncapa client process A-lonc= a lonc process on Server A |
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lond= loncapa daemon process |
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|
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database command |
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A-lonc --------TCP/IP----------------> B-lond |
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The problem emerges that A-lonc and B-lond are kept waiting for the |
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MySQL server to "do its stuff", or in other words, perform the conceivably |
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sophisticated, data-intensive, time-sucking database transaction. By tying |
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up a lonc and lond process, this significantly cripples the capabilities |
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of LON-CAPA servers. |
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|
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While commercial databases have a variety of features that ATTEMPT to |
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deal with this, freeware databases are still experimenting and exploring |
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with different schemes with varying degrees of performance stability. |
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THE SOLUTION: |
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A separate daemon process was created that B-lond works with to |
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handle database requests. This daemon process is called "lonsql". |
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So, |
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database command |
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A-lonc ---------TCP/IP-----------------> B-lond =====> B-lonsql |
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<---------------------------------/ | |
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"ok, I'll get back to you..." | |
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/ |
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A-lond <------------------------------- B-lonc <====== |
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"Guess what? I have the result!" |
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|
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Of course, depending on success or failure, the messages may vary, |
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but the principle remains the same where a separate pool of children |
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processes (lonsql's) handle the MySQL database manipulations. |
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Here are excerpts of code which implement the above handling: |
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|
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**LONSQL |
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A subroutine from "lonsql" which establishes a child process for handling |
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database interactions. |
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sub make_new_child { |
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my $pid; |
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my $sigset; |
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# block signal for fork |
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$sigset = POSIX::SigSet->new(SIGINT); |
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sigprocmask(SIG_BLOCK, $sigset) |
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or die "Can't block SIGINT for fork: $!\n"; |
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die "fork: $!" unless defined ($pid = fork); |
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if ($pid) { |
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# Parent records the child's birth and returns. |
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sigprocmask(SIG_UNBLOCK, $sigset) |
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or die "Can't unblock SIGINT for fork: $!\n"; |
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$children{$pid} = 1; |
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$children++; |
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return; |
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} else { |
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# Child can *not* return from this subroutine. |
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$SIG{INT} = 'DEFAULT'; # make SIGINT kill us as it did before |
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|
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# unblock signals |
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sigprocmask(SIG_UNBLOCK, $sigset) |
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or die "Can't unblock SIGINT for fork: $!\n"; |
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|
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|
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#open database handle |
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# making dbh global to avoid garbage collector |
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unless ( |
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$dbh = DBI->connect("DBI:mysql:loncapa","www","SOMEPASSWORD",{ RaiseError =>0,PrintError=>0}) |
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) { |
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my $st=120+int(rand(240)); |
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&logthis("<font color=blue>WARNING: Couldn't connect to database ($st secs): $@</font>"); |
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print "database handle error\n"; |
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sleep($st); |
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exit; |
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|
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}; |
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# make sure that a database disconnection occurs with ending kill signals |
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$SIG{TERM}=$SIG{INT}=$SIG{QUIT}=$SIG{__DIE__}=\&DISCONNECT; |
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|
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# handle connections until we've reached $MAX_CLIENTS_PER_CHILD |
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for ($i=0; $i < $MAX_CLIENTS_PER_CHILD; $i++) { |
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$client = $server->accept() or last; |
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|
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# do something with the connection |
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$run = $run+1; |
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my $userinput = <$client>; |
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chomp($userinput); |
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my ($conserver,$querytmp)=split(/&/,$userinput); |
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my $query=unescape($querytmp); |
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|
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#send query id which is pid_unixdatetime_runningcounter |
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$queryid = $thisserver; |
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$queryid .="_".($$)."_"; |
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$queryid .= time."_"; |
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$queryid .= $run; |
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print $client "$queryid\n"; |
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|
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#prepare and execute the query |
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my $sth = $dbh->prepare($query); |
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my $result; |
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unless ($sth->execute()) |
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{ |
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&logthis("<font color=blue>WARNING: Could not retrieve from database: $@</font>"); |
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$result=""; |
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} |
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else { |
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my $r1=$sth->fetchall_arrayref; |
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my @r2; map {my $a=$_; my @b=map {escape($_)} @$a; push @r2,join(",", @b)} (@$r1); |
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$result=join("&",@r2) . "\n"; |
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} |
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&reply("queryreply:$queryid:$result",$conserver); |
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|
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} |
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|
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# tidy up gracefully and finish |
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|
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#close the database handle |
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$dbh->disconnect |
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or &logthis("<font color=blue>WARNING: Couldn't disconnect from database $DBI::errstr ($st secs): $@</font>"); |
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|
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# this exit is VERY important, otherwise the child will become |
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# a producer of more and more children, forking yourself into |
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# process death. |
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exit; |
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} |
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} |
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** LOND enabling of MySQL requestsw |
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|
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This code is part of every lond child process in the way that it parses command request syntax |
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sent to it from lonc processes. querysend corresponds to B-lonc sending the result of the query. |
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queryreply corresponds to B-lond indicating that it has received the request and will start the |
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database transaction (it returns "ok" to A-lonc ($client)). |
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|
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# ------------------------------------------------------------------- querysend |
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} elsif ($userinput =~ /^querysend/) { |
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my ($cmd,$query)=split(/:/,$userinput); |
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$query=~s/\n*$//g; |
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print $client sqlreply("$hostid{$clientip}\&$query")."\n"; |
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# ------------------------------------------------------------------ queryreply |
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} elsif ($userinput =~ /^queryreply/) { |
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my ($cmd,$id,$reply)=split(/:/,$userinput); |
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my $store; |
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my $execdir=$perlvar{'lonDaemons'}; |
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if ($store=IO::File->new(">$execdir/tmp/$id")) { |
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print $store $reply; |
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close $store; |
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print $client "ok\n"; |
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} |
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else { |
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print $client "error:$!\n"; |
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} |
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|
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|
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** TEST the database connection with my current tester.pl code which mimics what command will eventually be |
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sent through lonc. |
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|
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$reply=reply( |
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"querysend:SELECT * FROM general_information WHERE Id='AAAAA'",$lonID); |
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</PRE> |
| </P> |
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