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# Rabbit MQ setup and MariaDB MaxScale Integration
## Introduction
A step by step guide helps installing a RabbitMQ server and testing it before
MariaDB MaxScale integration.
New plugin filter and a message consumer application need to be compiled and
linked with an external C library, RabbitMQ-c, that provides AMQP protocol integration.
Custom configuration, with TCP/IP and Queue parameters, is also detailed here.
The software install setup provides RPM and DEB packaging and traditional compilation steps.
## Step 1 - Get the RabbitMQ binaries
On Centos 6.5 using fedora / RHEL rpm get the rpm from
[http://www.rabbitmq.com/](http://www.rabbitmq.com/ "RabbitMQ")
rabbitmq-server-3.3.4-1.noarch.rpm
Please note, before installing RabbitMQ, you must install Erlang.
Example:
```
yum install erlang
Package erlang-R14B-04.3.el6.x86_64 already installed and latest version
```
## Step 2 - Install and Start the Server
Install the packages using your distribution's package manager and start the server:
```
yum install rabbitmq-server-3.3.4-1.noarch.rpm
systemctl start rabbitmq-server.service
```
To configure your RabbitMQ server, please refer to the RabbitMQ website:
[http://www.rabbitmq.com/](http://www.rabbitmq.com/ RabbitMQ website).
rabbitmqctl is a command line tool for managing a RabbitMQ broker.
It performs all actions by connecting to one of the broker's nodes.
```
rabbitmqctl list_queues
rabbitmqctl list_queues | list_exchanges| cluster_status | list_bindings | list_connections | list_consumers | status
```
Example output:
```
[root@maxscale-02 MaxScale]# rabbitmqctl status
Status of node 'rabbit@maxscale-02' ...
[{pid,12251},
{running_applications,[{rabbit,"RabbitMQ","3.3.4"},
{os_mon,"CPO CXC 138 46","2.2.7"},
{xmerl,"XML parser","1.2.10"},
{mnesia,"MNESIA CXC 138 12","4.5"},
{sasl,"SASL CXC 138 11","2.1.10"},
{stdlib,"ERTS CXC 138 10","1.17.5"},
{kernel,"ERTS CXC 138 10","2.14.5"}]},
{os,{unix,linux}},
{erlang_version,"Erlang R14B04 (erts-5.8.5) [source] [64-bit] [smp:2:2] [rq:2] [async-threads:30] [kernel-poll:true]\n"},
...
{listeners,[{clustering,25672,"::"},{amqp,5672,"::"}]},
...
...done.
[root@maxscale-02 MaxScale]# rabbitmqctl list_bindings
Listing bindings ...
x1 exchange q1 queue k1 []
...done.
```
Interaction with the server may require stop & reset at some point:
```
rabbitmqctl stop_app
rabbitmqctl reset
rabbitmqctl start_app
```
## Step 3 - Install and test the client libraries
The selected library for MariaDB MaxScale integration of RabbitMQ is:
[https://github.com/alanxz/rabbitmq-c](https://github.com/alanxz/rabbitmq-c RabbitMQ-C)
### Manual software compilation
To compile the RabbitMQ-C libraries manually:
```
git clone https://github.com/alanxz/rabbitmq-c.git
cd rabbitmq-c
cmake -DCMAKE_INSTALL_PREFIX=/usr .
make
make install
```
Please note, this will install the packages to /usr. If you do not wish to install
them to this location, provide a different value for the CMAKE_INSTALL_PREFIX variable.
### Setup using the EPEL repository
Check how to configure your distribution for the EPEL repository:
[https://fedoraproject.org/wiki/EPEL](https://fedoraproject.org/wiki/EPEL EPEL)
Configure your repositories and install the software:
```
yum install librabbitmq.x86_64
```
you might also like to install:
```
librabbitmq-tools.x86_64, librabbitmq-devel.x86_64
```
Please note you may also install the rabbitmq server from the EPEL repository:
```
yum install rabbitmq-server
```
### Basic tests with library
The required library librabbitmq-c is now installed and we continue with basic
operations with amqp_* tools, located in the examples/ folder of the build directory,
testing client server interaction.
Please note, those example applications may not be included in the RPM library packages.
#### Test 1 - create the exchange
```
[root@maxscale-02 examples]# ./amqp_exchange_declare
Usage: amqp_exchange_declare host port exchange exchangetype
```
Declare the exchange:
```
[root@maxscale-02 examples]# ./amqp_exchange_declare 127.0.0.1 5672 foo direct
```
#### Test 2 - Listen to exchange with selected binding key
```
[root@maxscale-02 examples]# ./amqp_listen
Usage: amqp_listen host port exchange bindingkey
```
Start the listener:
```
[root@maxscale-02 examples]# ./amqp_listen 127.0.0.1 5672 foo k1 &
```
#### Test 3 - Send a message …
```
[root@maxscale-02 examples]# ./amqp_sendstring
Usage: amqp_sendstring host port exchange routingkey messagebody
[root@maxscale-02 examples]# ./amqp_sendstring 127.0.0.1 5672 foo k1 “This is a new message”
```
... and watch the listener output
```
Delivery 1, exchange foo routingkey k1
Content-type: text/plain
```
## Step 4 - Configure new applications
The new filter needs to be configured in maxscale.cnf.
```
[Test Service]
type=service
router=readconnroute
router_options=slave
servers=server1,server2,server3,server5,server4
user=massi
passwd=massi
filters=MQ
[MQ]
type=filter
module=mqfilter
exchange=x1
key=k1
queue=q1
hostname=127.0.0.1
port=5672
logging_trigger=all
```
Logging triggers define whether to log all or a subset of the incoming queries
using these options:
```
# log only some elements or all
logging_trigger=[all,source,schema,object]
# Whether to log only SELECT, UPDATE, INSERT and DELETE queries or all possible queries
logging_log_all=true|false
# Log only when any of the trigger parameters match or only if all parameters match
logging_strict=true|false
# specify objects
logging_object=mytable,another_table
# specify logged users
logging_source_user=testuser,testuser
# specify source addresses
logging_source_host=127.0.0.1,192.168.10.14
# specify schemas
logging_schema=employees,orders,catalog
```
Example:
```
logging_trigger=object,schema,source
logging_strict=false
logging_log_all=false
logging_object=my1
logging_schema=test
logging_source_user=maxtest
```
The logging result of the example is:
```
if user maxtest does something, it's logged
and all queries in test schema are logged
anything targeting my1 table is logged
SELECT NOW(), SELECT MD5(“xyz)” are not logged
```
Please note that if we want to log only the user ‘maxtest’ accessing the
schema ‘test’ with target ‘my1’ the option logging_strict must be set
to TRUE and if we want to include those selects without schema name the
option logging_log_all must be set to TRUE.
The mqfilter logs into the MariaDB MaxScale TRACE log information about
the matched logging triggers and the message delivering:
```
2014 09/03 06:22:04 Trigger is TRG_SOURCE: user: testuser = testuser
2014 09/03 06:22:04 Trigger is TRG_SCHEMA: test = test
2014 09/03 06:22:04 Trigger is TRG_OBJECT: test.t1 = t1
2014 09/03 06:22:04 Routing message to: 127.0.0.1:5672 / as guest/guest, exchange: x1<direct> key:k1 queue:q1
```
The consumer application needs to be configured as well:
```
#The options for the consumer are:
#hostname RabbitMQ hostname
#port RabbitMQ port
#vhost RabbitMQ virtual host
#user RabbitMQ username
#passwd RabbitMQ password
#queue Name of the queue to use
#dbserver SQL server name
#dbport SQL server port
#dbname Name of the database to use
#dbuser SQL server username
#dbpasswd SQL server password
#logfile Message log filename
[consumer]
hostname=127.0.0.1
port=5672
vhost=/
user=guest
passwd=guest
queue=q1
dbserver=127.0.0.1
dbport=3308
dbname=mqpairs
dbuser=xxx
dbpasswd=yyy
```
We may probably need to modify LD_LIBRARY_PATH before launching ‘consumer’:
```
# export LD_LIBRARY_PATH=/packages/rabbitmq-c/rabbitmq-c/librabbitmq:/packages/mariadb_client-2.0.0-Linux/lib/mariadb:/usr/lib64
```
and finally we can launch it:
```
# ./consumer
```
If the consumer.cnf file is not in the same directory as the binary file is,
you can provide the location of the folder that it is in by passing
it the -c flag followed by the path:
```
# ./consumer -c path/to/file
```
and start MariaDB MaxScale as well
## Step 5 - Test the filter and check collected data
Assuming that MariaDB MaxScale and the message consumer are successfully
running let’s connect to the service with an active mqfilter:
```
[root@maxscale-02 MaxScale]# mysql -h 127.0.0.1 -P 4506 -uxxx -pyyy
...
MariaDB [(none)]> select RAND(3), RAND(5);
+--------------------+---------------------+
| RAND(3) | RAND(5) |
+--------------------+---------------------+
| 0.9057697559760601 | 0.40613597483014313 |
+--------------------+---------------------+
1 row in set (0.01 sec)
MariaDB [(none)]> select RAND(3544), RAND(11);
```
we can check the consumer output in the terminal where it was started:
```
--------------------------------------------------------------
Received: 1409671452|select @@version_comment limit ?
Received: 1409671452|Columns: 1
...
Received: 1409671477|select RAND(?), RAND(?)
Received: 1409671477|Columns: 2
We query now the database for the content collected so far:
MariaDB [(none)]> use mqpairs;
Database changed
MariaDB [mqpairs]> select * from pairs;
+-------------------------------------+----------------------------------+------------+---------------------+---------------------+---------+
| tag | query | reply | date_in | date_out | counter |
+-------------------------------------+----------------------------------+------------+---------------------+---------------------+---------+
| 006c006d006e006f007000710072007374 | select @@version_comment limit ? | Columns: 1 | 2014-09-02 11:14:51 | 2014-09-02 11:26:38 | 3 |
| 00750076007700780079007a007b007c7d | SELECT DATABASE() | Columns: 1 | 2014-09-02 11:14:56 | 2014-09-02 11:27:06 | 3 |
| 007e007f00800081008200830084008586 | show databases | Columns: 1 | 2014-09-02 11:14:56 | 2014-09-02 11:27:06 | 3 |
| 008700880089008a008b008c008d008e8f | show tables | Columns: 1 | 2014-09-02 11:14:56 | 2014-09-02 11:27:06 | 3 |
| 0090009100920093009400950096009798 | select * from mqpairs.pairs | Columns: 6 | 2014-09-02 11:15:00 | 2014-09-02 11:27:00 | 12 |
| 00fc00fd00fe00ff0100010101020103104 | select NOW() | Columns: 1 | 2014-09-02 11:24:23 | 2014-09-02 11:24:23 | 1 |
| 01050106010701080109010a010b010c10d | select RAND(?), RAND(?) | Columns: 2 | 2014-09-02 11:24:37 | 2014-09-02 11:24:37 | 1 |
+-------------------------------------+----------------------------------+------------+---------------------+---------------------+---------+
7 rows in set (0.01 sec)
```
The filter send queries to the RabbitMQ server in the canonical format,
i.e select RAND(?), RAND(?).
The queries Message Queue Consumer application gets from the server
are stored with a counter that quickly shows how many times that normalized query was received:
```
| 01050106010701080109010a010b010c10d | select RAND(?), RAND(?) | Columns: 2 | 2014-09-02 11:24:37 | 2014-09-02 11:29:15 | 3 |
```
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