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這篇文章主要介紹了Mysql優化之Zabbix分區優化的示例分析,具有一定借鑒價值,感興趣的朋友可以參考下,希望大家閱讀完這篇文章之后大有收獲,下面讓小編帶著大家一起了解一下。
使用zabbix最大的瓶頸在于數據庫,維護好zabbix的數據存儲,告警,就能很好地應用zabbix去構建監控系統。目前zabbix的數據主要存儲在history和trends的2個表中,隨著時間的推移,這兩個表變得非常大,性能會非常差,影響監控的使用。對MySQL進行調優,能夠極大的提升Zabbix的性能,本文采用對MySQL進行分區的方法進行調優。
原理
對zabbix中的history和trends等表進行分區,按日期進行分區,每天一個,共保留90天分區。
操作詳細步驟
操作影響: 可以在線操作,MySQL的讀寫變慢,Zabbix性能變慢,影響時間根據數據的小而變化,一般在2個小時左右。
第一步
登錄zabbix server的數據庫,統一MySQL的配置
cat > /etc/my.cnf<<EOF [mysqld] datadir=/data/mysql socket=/var/lib/mysql/mysql.sock default-storage-engine = innodb collation-server = utf8_general_ci init-connect = 'SET NAMES utf8' character-set-server = utf8 symbolic-links=0 max_connections=4096 innodb_buffer_pool_size=12G max_allowed_packet = 32M join_buffer_size=2M sort_buffer_size=2M query_cache_size = 64M query_cache_limit = 4M thread_concurrency = 8 table_open_cache=1024 innodb_flush_log_at_trx_commit = 0 long_query_time = 1 log-slow-queries =/data/mysql/mysql-slow.log [mysqld_safe] log-error=/var/log/mariadb/mariadb.log pid-file=/var/run/mariadb/mariadb.pid #[mysql] #socket=/data/mysql/mysql.sock # # include all files from the config directory # !includedir /etc/my.cnf.d EOF
注意:一定要修改innodb_buffer_pool_size=物理內存的1/3
第二步
先確認zabbix的版本,本操作zabbix的版本一定要大于3.2.0。小于3.2的版本不能安裝此操作,線上默認是zabbix-3.2.6。
a、 導入存儲過程
#cat partition.sql
DELIMITER $$
CREATE PROCEDURE `partition_create`(SCHEMANAMEvarchar(64), TABLENAME varchar(64), PARTITIONNAME varchar(64), CLOCK int)
BEGIN
/*
SCHEMANAME = The DB schema in which to make changes
TABLENAME = The table with partitions to potentially delete
PARTITIONNAME = The name of the partition to create
*/
/*
Verify that the partition does not already exist
*/
DECLARE RETROWS INT;
SELECT COUNT(1) INTO RETROWS
FROM information_schema.partitions
WHERE table_schema = SCHEMANAME AND table_name = TABLENAME ANDpartition_description >= CLOCK;
IF RETROWS = 0 THEN
/*
1. Print a messageindicating that a partition was created.
2. Create the SQL to createthe partition.
3. Execute the SQL from #2.
*/
SELECT CONCAT( "partition_create(", SCHEMANAME, ",",TABLENAME, ",", PARTITIONNAME, ",", CLOCK, ")" )AS msg;
SET @sql = CONCAT( 'ALTER TABLE ', SCHEMANAME, '.', TABLENAME, ' ADDPARTITION (PARTITION ', PARTITIONNAME, ' VALUES LESS THAN (', CLOCK, '));' );
PREPARE STMT FROM @sql;
EXECUTE STMT;
DEALLOCATE PREPARE STMT;
END IF;
END$$
DELIMITER ;
DELIMITER $$
CREATE PROCEDURE `partition_drop`(SCHEMANAMEVARCHAR(64), TABLENAME VARCHAR(64), DELETE_BELOW_PARTITION_DATE BIGINT)
BEGIN
/*
SCHEMANAME = The DB schema in which tomake changes
TABLENAME = The table with partitions to potentially delete
DELETE_BELOW_PARTITION_DATE = Delete any partitions with names that aredates older than this one (yyyy-mm-dd)
*/
DECLARE done INT DEFAULT FALSE;
DECLARE drop_part_name VARCHAR(16);
/*
Get a list of all the partitions that are older than the date
in DELETE_BELOW_PARTITION_DATE. All partitions are prefixed with
a "p", so use SUBSTRING TOget rid of that character.
*/
DECLARE myCursor CURSOR FOR
SELECT partition_name
FROM information_schema.partitions
WHERE table_schema = SCHEMANAME AND table_name = TABLENAME ANDCAST(SUBSTRING(partition_name FROM 2) AS UNSIGNED) <DELETE_BELOW_PARTITION_DATE;
DECLARE CONTINUE HANDLER FOR NOT FOUND SET done = TRUE;
/*
Create the basics for when we need to drop the partition. Also, create
@drop_partitions to hold a comma-delimited list of all partitions that
should be deleted.
*/
SET @alter_header = CONCAT("ALTER TABLE ", SCHEMANAME,".", TABLENAME, " DROP PARTITION ");
SET @drop_partitions = "";
/*
Start looping through all the partitions that are too old.
*/
OPEN myCursor;
read_loop: LOOP
FETCH myCursor INTO drop_part_name;
IF done THEN
LEAVE read_loop;
END IF;
SET @drop_partitions = IF(@drop_partitions = "",drop_part_name, CONCAT(@drop_partitions, ",", drop_part_name));
END LOOP;
IF @drop_partitions != "" THEN
/*
1. Build the SQL to drop allthe necessary partitions.
2. Run the SQL to drop thepartitions.
3. Print out the tablepartitions that were deleted.
*/
SET @full_sql = CONCAT(@alter_header, @drop_partitions, ";");
PREPARE STMT FROM @full_sql;
EXECUTE STMT;
DEALLOCATE PREPARE STMT;
SELECT CONCAT(SCHEMANAME, ".", TABLENAME) AS `table`,@drop_partitions AS `partitions_deleted`;
ELSE
/*
No partitions are beingdeleted, so print out "N/A" (Not applicable) to indicate
that no changes were made.
*/
SELECT CONCAT(SCHEMANAME, ".", TABLENAME) AS `table`,"N/A" AS `partitions_deleted`;
END IF;
END$$
DELIMITER ;
DELIMITER $$
CREATE PROCEDURE`partition_maintenance`(SCHEMA_NAME VARCHAR(32), TABLE_NAME VARCHAR(32),KEEP_DATA_DAYS INT, HOURLY_INTERVAL INT, CREATE_NEXT_INTERVALS INT)
BEGIN
DECLARE OLDER_THAN_PARTITION_DATE VARCHAR(16);
DECLARE PARTITION_NAME VARCHAR(16);
DECLARE OLD_PARTITION_NAME VARCHAR(16);
DECLARE LESS_THAN_TIMESTAMP INT;
DECLARE CUR_TIME INT;
CALL partition_verify(SCHEMA_NAME,TABLE_NAME, HOURLY_INTERVAL);
SET CUR_TIME = UNIX_TIMESTAMP(DATE_FORMAT(NOW(), '%Y-%m-%d 00:00:00'));
SET @__interval = 1;
create_loop: LOOP
IF @__interval > CREATE_NEXT_INTERVALS THEN
LEAVE create_loop;
END IF;
SET LESS_THAN_TIMESTAMP = CUR_TIME + (HOURLY_INTERVAL * @__interval *3600);
SET PARTITION_NAME = FROM_UNIXTIME(CUR_TIME + HOURLY_INTERVAL *(@__interval - 1) * 3600, 'p%Y%m%d%H00');
IF(PARTITION_NAME != OLD_PARTITION_NAME) THEN
CALLpartition_create(SCHEMA_NAME, TABLE_NAME, PARTITION_NAME, LESS_THAN_TIMESTAMP);
END IF;
SET @__interval=@__interval+1;
SET OLD_PARTITION_NAME = PARTITION_NAME;
END LOOP;
SET OLDER_THAN_PARTITION_DATE=DATE_FORMAT(DATE_SUB(NOW(), INTERVALKEEP_DATA_DAYS DAY), '%Y%m%d0000');
CALL partition_drop(SCHEMA_NAME, TABLE_NAME, OLDER_THAN_PARTITION_DATE);
END$$
DELIMITER ;
DELIMITER $$
CREATE PROCEDURE `partition_verify`(SCHEMANAMEVARCHAR(64), TABLENAME VARCHAR(64), HOURLYINTERVAL INT(11))
BEGIN
DECLARE PARTITION_NAME VARCHAR(16);
DECLARE RETROWS INT(11);
DECLARE FUTURE_TIMESTAMP TIMESTAMP;
/*
* Check if any partitions exist for the given SCHEMANAME.TABLENAME.
*/
SELECT COUNT(1) INTO RETROWS
FROM information_schema.partitions
WHERE table_schema = SCHEMANAME AND table_name = TABLENAME ANDpartition_name IS NULL;
/*
* If partitions do not exist, go ahead and partition the table
*/
IFRETROWS = 1 THEN
/*
* Take the current date at 00:00:00 and add HOURLYINTERVAL to it. This is the timestamp below which we willstore values.
* We begin partitioning based on the beginning of a day. This is because we don't want to generate arandom partition
* that won't necessarily fall in line with the desired partition naming(ie: if the hour interval is 24 hours, we could
* end up creating a partition now named "p201403270600" whenall other partitions will be like "p201403280000").
*/
SET FUTURE_TIMESTAMP = TIMESTAMPADD(HOUR, HOURLYINTERVAL,CONCAT(CURDATE(), " ", '00:00:00'));
SET PARTITION_NAME = DATE_FORMAT(CURDATE(), 'p%Y%m%d%H00');
-- Create the partitioning query
SET @__PARTITION_SQL = CONCAT("ALTER TABLE ", SCHEMANAME,".", TABLENAME, " PARTITION BY RANGE(`clock`)");
SET @__PARTITION_SQL = CONCAT(@__PARTITION_SQL, "(PARTITION ",PARTITION_NAME, " VALUES LESS THAN (",UNIX_TIMESTAMP(FUTURE_TIMESTAMP), "));");
-- Run the partitioning query
PREPARE STMT FROM @__PARTITION_SQL;
EXECUTE STMT;
DEALLOCATE PREPARE STMT;
END IF;
END$$
DELIMITER ;
DELIMITER $$
CREATE PROCEDURE`partition_maintenance_all`(SCHEMA_NAME VARCHAR(32))
BEGIN
CALL partition_maintenance(SCHEMA_NAME, 'history', 90, 24, 14);
CALL partition_maintenance(SCHEMA_NAME, 'history_log', 90, 24, 14);
CALL partition_maintenance(SCHEMA_NAME, 'history_str', 90, 24, 14);
CALL partition_maintenance(SCHEMA_NAME, 'history_text', 90, 24, 14);
CALLpartition_maintenance(SCHEMA_NAME, 'history_uint', 90, 24, 14);
CALL partition_maintenance(SCHEMA_NAME, 'trends', 730, 24, 14);
CALL partition_maintenance(SCHEMA_NAME, 'trends_uint', 730, 24, 14);
END$$
DELIMITER ;上面內容包含了創建分區的存儲過程,將上面內容復制到partition.sql中,然后執行如下:
mysql -uzabbix -pzabbix zabbix < partition.sql
b、 添加crontable,每天執行01點01分執行,如下:
crontab -l > crontab.txt
cat >> crontab.txt <<EOF
#zabbix partition_maintenance
01 01 * * * mysql -uzabbix -pzabbix zabbix -e"CALL partition_maintenance_all('zabbix')" &>/dev/null
EOF
cat crontab.txt |crontab注意: mysql的zabbix用戶的密碼部分按照實際環境配置
c、首先執行一次(由于首次執行的時間較長,請使用nohup執行),如下:
nohup mysql -uzabbix -pzabbix zabbix -e "CALLpartition_maintenance_all('zabbix')" &> /root/partition.log&注意:觀察/root/partition.log的輸出
d、 查看結果
登錄mysql,查看history等表, 如下:
MariaDB [zabbix]> showcreate table history | history | CREATE TABLE `history` ( `itemid` bigint(20) unsigned NOT NULL, `clock`int(11) NOT NULL DEFAULT '0', `value`double(16,4) NOT NULL DEFAULT '0.0000', `ns`int(11) NOT NULL DEFAULT '0', KEY`history_1` (`itemid`,`clock`) ) ENGINE=InnoDB DEFAULT CHARSET=utf8 /*!50100 PARTITION BY RANGE (`clock`) (PARTITION p201708280000 VALUES LESS THAN(1503936000) ENGINE = InnoDB, PARTITION p201708290000 VALUES LESS THAN(1504022400) ENGINE = InnoDB, PARTITION p201708300000 VALUES LESS THAN(1504108800) ENGINE = InnoDB, PARTITION p201708310000 VALUES LESS THAN(1504195200) ENGINE = InnoDB, PARTITION p201709010000 VALUES LESS THAN(1504281600) ENGINE = InnoDB, PARTITION p201709020000 VALUES LESS THAN(1504368000) ENGINE = InnoDB, PARTITION p201709030000 VALUES LESS THAN(1504454400) ENGINE = InnoDB, PARTITION p201709040000 VALUES LESS THAN(1504540800) ENGINE = InnoDB, PARTITION p201709050000 VALUES LESS THAN(1504627200) ENGINE = InnoDB, PARTITION p201709060000 VALUES LESS THAN(1504713600) ENGINE = InnoDB, PARTITION p201709070000 VALUES LESS THAN(1504800000) ENGINE = InnoDB, PARTITION p201709080000 VALUES LESS THAN(1504886400) ENGINE = InnoDB, PARTITION p201709090000 VALUES LESS THAN(1504972800) ENGINE = InnoDB, PARTITION p201709100000 VALUES LESS THAN(1505059200) ENGINE = InnoDB, PARTITION p201709110000 VALUES LESS THAN(1505145600) ENGINE = InnoDB) */ |
發現了大量PARTITION字段,說明配置正確。注意觀察Mysql的Slow Query,一般到執行操作的第二天,Slow Query幾乎就會有了,此時Zabbix的Dashboard響應速度應該非常流暢了。
感謝你能夠認真閱讀完這篇文章,希望小編分享的“Mysql優化之Zabbix分區優化的示例分析”這篇文章對大家有幫助,同時也希望大家多多支持億速云,關注億速云行業資訊頻道,更多相關知識等著你來學習!
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