mysqladvppt2850
DESCRIPTION
TRANSCRIPT
MySQL Advanced
MySQL ReplicationMySQL ClusterMySQL Partitioning
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL Advanced
MySQL Replication
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL ReplicationConcepts
MySQL replication tracks updates performed in a MySQL master logs and updates one or more slave servers. The mechanism involved in MySQL replication requires binary logging to be active.
-Asynchronous replication, a slave doesn't need to be always active.
-MySQL replication can be used to scale-out queries among different servers.
-MySQL replication is a good solution for performing live backups.
- Long distance data distribution.
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL ReplicationArchitecture
MySQL replication architecture:
- Each update performed in a database is replicated from the master to the slaves.
- Only slaves keep track of their replication status.
- One may set at what point the replication begins.
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL Replicationsetup
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL MasterTurn on binary log and set the server id restart mysql server:
server-id =1
log_bin =/var/log/mysql/mysql-bin.log
binlog_do_db = gaia_testCreate a user for replication:
GRANT REPLICATION SLAVE ON *.* TO 'rep_slave'@'slave_ip' IDENTIFIED BY 'password';
MySQL slave
Set the master properties in /etc/mysql/my.cnf:
server-id=2
master-host = master_ip
master-user = rep_slave
master-password = password
replicate-do-db={db_name}
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL Replicationsetup
MySQL Master
•Show master log position:
mysql > show master status \G;
File: mysql-bin.000011
Position: 784
Binlog_Do_DB: gaia_test
MySQL slave
•Change log position:
CHANGE MASTER TO
MASTER_HOST=server_IP,
MASTER_LOG_FILE=mysql-bin,
MASTER_LOG_POS=784;
Start Slave:
mysql > slave start;
•See slave status and notice the SLAVE_* variables for errors (No = bad) :
Show slave status\G;
MySQL Advanced
MySQL Cluster
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL Cluster
MySQL cluster is designed to provide near perfect availability through a shared nothing architecture, in turn this means that all the nodes in a MySQL cluster can be replicated for failover.
MySQL cluster is a in memory database, which means that all data must be located in RAM, since version 5.1.6 a mechanism is available to store data on disk although Indexes must still fit in ram.
All data in MySQL is horizontally partitioned, across different storage nodes, which means that all table data is split across the storage nodes.
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL ClusterMySQL cluster architecture consists of three types nodes:
Storage nodes: All data is stored in this nodes.
SQL nodes: Standard MySQL nodes, used for connection.
Management nodes: Used to change the setup of the cluster.
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL Cluster
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
Setup (Debian)To setup a 3 node (API + engine + management) MySQL Cluster you must update 2 files:
Edit /etc/mysql/my.cnf and add:
[mysqld]
ndbcluster
[MYSQL_CLUSTER]
ndb-connectstring=127.0.0.1
MySQL Cluster
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
Setup (debian)
Create a new configuration file in /etc/mysql/ndb_mgmd.cnf:
[ndbd default]
NoOfReplicas=1
DataMemory=80M
IndexMemory=18M
[ndb_mgmd]
Id=1
hostname=localhost
datadir=/var/lib/mysql-cluster
[mysqld]
MySQL Cluster
Startup order:
#1 Management nodes:
invoke-rc.d mysql-ndb-mgm start (start-initial)
#2 Data nodes
invoke-rc.d mysql-ndb start
#3 SQL nodes
invoke-rc.d mysql start
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL Cluster
Testing the installation:bash$ ndb-mgm -e show
Connected to Management Server at: 127.0.0.1:1186
Cluster Configuration
---------------------
[ndbd(NDB)] 1 node(s)
id=2 @127.0.0.1 (Version: 5.1.22, Nodegroup: 0, Master)
[ndb_mgmd(MGM)] 1 node(s)
id=1 @127.0.0.1 (Version: 5.1.22)
[mysqld(API)] 1 node(s)
id=3 @127.0.0.1 (Version: 5.1.22)
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL ClusterTesting the installation:
mysql> create table person (id int, name varchar(32)) engine = ndb;
Query OK, 0 rows affected (2,34 sec)
mysql> insert into person (id, name ) values ('11','carlos');
Query OK, 1 row affected (0,00 sec)
mysql> select * from person;
+------+--------+
| id | name |
+------+--------+
| 11 | carlos |
+------+--------+
1 row in set (0,00 sec)
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL Advanced
MySQL Partitioning
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL Partitioningconcepts
Typical SQL doesn't provide guidance to underling physical storage layer, Partitioning allows you to split a table across multiple files, through the usage of a special partitioning rule called partitioning function.
Partitioning can only take place in engines that support partitioning, engines like MyISAM or InnoDB and not like CSV or BlackHole.
The big performance boost in database partition is that partitions that do not satisfy a certain rule are not scanned, this is called partition pruning.
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL PartitioningPartition types
• RANGE partitioning: Assigns rows to partitions based on column values falling within a given range.
• LIST partitioning: Similar to partitioning by range, except that the partition is selected based on columns matching one of a
Partitioning set of discrete values.
• HASH partitioning: A partition is selected based on the value returned by a user-defined expression that operates on column values in rows to be inserted into the table. The function may consist of any expression valid in MySQL that yields a non-negative integer value.
• KEY partitioning: Similar to partitioning by hash, except that only one or more columns to be evaluated are supplied, and the MySQL server provides its own hashing function.
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL Partitioningexamples
Range partition:
CREATE TABLE t1 (
r_name VARCHAR(50) NOT NULL,
region_code TINYINT UNSIGNED NOT NULL
)
PARTITION BY RANGE( region_code ) (
PARTITION p0 VALUES LESS THAN (64),
PARTITION p1 VALUES LESS THAN (128),
PARTITION p3 VALUES LESS THAN MAXVALUE
);
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL Partitioningexamples
List Partition:
CREATE TABLE employees (
id INT NOT NULL,
fname VARCHAR(30),
lname VARCHAR(30),
hired DATE NOT NULL DEFAULT '1970-01-01',
separated DATE NOT NULL DEFAULT '9999-12-31',
job_code INT,
store_id INT )
PARTITION BY LIST(store_id) (
PARTITION pNorth VALUES IN (16,15,3,5,6,9,17),
PARTITION pEast VALUES IN (1,2,8,10,11,19,20),
PARTITION pWest VALUES IN (7, 4,12,13,14,18) );
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL Partitioningexamples
Hash Partition:
CREATE TABLE employees (
id INT NOT NULL,
fname VARCHAR(30),
lname VARCHAR(30),
hired DATE NOT NULL DEFAULT '1970-01-01',
separated DATE NOT NULL DEFAULT '9999-12-31',
job_code INT,
store_id INT )
PARTITION BY HASH(store_id)
PARTITIONS 5;
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
MySQL Partitioningexamples
Key Partition:
CREATE TABLE k1 (
id INT NOT NULL PRIMARY KEY,
name VARCHAR(20))
PARTITION BY KEY()
PARTITIONS 4;
CREATE TABLE k1 (
id INT NOT NULL,
name VARCHAR(20),
UNIQUE KEY (id) )
PARTITION BY KEY()
PARTITIONS 4;
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
Q&A
•For more information:
More on MySQL-cluster and other studies:SIM Studies at the GAIA WIKIThe technical note:GAIA-C1-TN-SIM-CDJ-001-1.pdfGAIA-C1-TN-SIM-AAB-001-01.pdf
António Amorim, Carlos Jesus. CU1 - First Database Testing Meeting, 20/Nov/08
MySQL Benchmarks
MySQL Single serverMySQL ClusterOracle
António Amorim, Carlos Jesus. CU1 - DBWorkshop 9-10 /Feb/09
Test objectives• Past studies evaluated the architecture and performance of MySQL Cluster and PostgreSQL
solutions for the Gaia Databases.
• MySQL Cluster:
– MySQL-Cluster
• Poor performance
• Redundancy benefits
– PostgreSQL
• Sends 2x more data than MySQL
• Poor Bytea performance
António Amorim, Carlos Jesus. CU1 - First Database Testing Meeting, 20/Nov/08
Network load(400K objects)
PostgreSQL: 2072M
MYSQL: 1050 Mb
ORACLE-XE: 520 Mb
Single MySQL ServerIn order to pinpoint bottlenecks associated with MySQL, a series of basic tests were performed, these new tests made use of the available MDBExtractorIngestor package.
Control and Monitor:Available at the local infrastructure was the SMS (Supervisor Monitor Scheduler) batch system, we deployed in one node the database and in another the Ingestor.
At the local infrastructure was available the SMS (Supervisor Monitor Scheduler) batch system.
The tests basic 2 node client server model the nodes where as following:
Hardware setup
António Amorim, Carlos Jesus. CU1 - First Database Testing Meeting, 20/Nov/08
MySQL Ingestor, Old and new JdbcObjectUpdater, 4.5Gb of data.
Tests ForMDBExtractorIngestor
António Amorim, Carlos Jesus. CU1 - First Database Testing Meeting, 20/Nov/08
JdbcObjectUpdater.java
Oracle datapump (local), 1Gb of data.
Tests ForDbBenchmark
António Amorim, Carlos Jesus. CU1 - First Database Testing Meeting, 20/Nov/08
JdbcObjectUpdater.java
MySQL Ingestor, Old and new JdbcObjectUpdater, 1Gb of data.