ClickHouse 是一个真正的列式数据库管理系统(DBMS)。在 ClickHouse 中,数据始终是按列存储的,包括矢量(向量或列块)执行的过程。只要有可能,操作都是基于矢量进行分派的,而不是单个的值,这被称为«矢量化查询执行»,它有利于降低实际的数据处理开销。
Elasticsearch是一个开源的分布式、RESTful 风格的搜索和数据分析引擎,它的底层是开源库Apache Lucene。 它可以被这样准确地形容:
众所周知,ClickHouse在基本场景表现非常优秀,性能优于ES,但是我们实际的业务查询中有很多是复杂的业务查询场景,甚至是大数量的查询,所以为了在双十一业务峰值来到前,确保大促活动峰值业务稳定性,针对ClickHouse 和Elasticsearch在我们实际业务场景中是否拥有优秀的抗压能力,通过这次性能压测,探测系统中的性能瓶颈点,进行针对性优化,从而提升系统性能。
为什么会选择这个(queryOBBacklogData)接口呢?
/**
* 切ck-queryOBBacklogData
* @param queryBO
* @return
*/
public OutboundBacklogRespBO queryOBBacklogDataCKNew(OutboundBacklogQueryBO queryBO) {
log.info(" queryOBBacklogDataCK入参:{}", JSON.toJSONString(queryBO));
// 公共条件-卡最近十天时间
String commonStartTime = DateUtils.getTime(DateUtil.format(new Date(), DateUtil.FORMAT_DATE), DateUtils.ELEVEN_AM, 1, -10);
String commonEndTime = DateUtils.getTime(DateUtil.format(new Date(), DateUtil.FORMAT_DATE), DateUtils.ELEVEN_AM, 1, 1);
// 越库信息-待越库件数&待越库任务数
WmsObCrossDockQueryBo wmsObCrossDockQueryBo = wmsObCrossDockQueryBoBuilder(queryBO,commonStartTime, commonEndTime);
log.info("queryOBBacklogDataCK-wmsObCrossDockQueryBo: {}", JSON.toJSONString(wmsObCrossDockQueryBo));
CompletableFuture preCrossDockInfoCF = CompletableFuture.supplyAsync(
() -> wmsObCrossDockMapper.preCrossDockInfo(wmsObCrossDockQueryBo), executor);
// 集合任务信息-待分配订单
WmsObAssignOrderQueryBo wmsObAssignOrderQueryBo = wmsObAssignOrderQueryBoBuilder(queryBO, commonStartTime, commonEndTime);
log.info("queryOBBacklogDataCK-wmsObAssignOrderQueryBo: {}", JSON.toJSONString(wmsObAssignOrderQueryBo));
CompletableFuture preAssignOrderQtyCF = CompletableFuture.supplyAsync(
() -> wmsObAssignOrderMapper.preAssignOrderInfo(wmsObAssignOrderQueryBo), executor);
// 拣货信息-待拣货件数&待拣货任务数
WmsPickTaskQueryBo wmsPickTaskQueryBo = wmsPickTaskQueryBoBuilder(queryBO, commonStartTime, commonEndTime);
log.info("queryOBBacklogDataCK-wmsPickTaskQueryBo: {}", JSON.toJSONString(wmsPickTaskQueryBo));
CompletableFuture prePickingInfoCF = CompletableFuture.supplyAsync(
() -> wmsPickTaskMapper.pickTaskInfo(wmsPickTaskQueryBo), executor);
// 分播信息-待分播件数&待分播任务
WmsCheckTaskDetailQueryBo wmsCheckTaskDetailQueryBo = wmsCheckTaskDetailQueryBoBuilder(queryBO, commonStartTime, commonEndTime);
log.info("queryOBBacklogDataCK-wmsCheckTaskDetailQueryBo: {}", JSON.toJSONString(wmsCheckTaskDetailQueryBo));
CompletableFuture preSowInfoCF = CompletableFuture.supplyAsync(
() -> wmsCheckTaskDetailMapper.checkTaskDetailInfo(wmsCheckTaskDetailQueryBo), executor);
// 发货信息-待发货件数
WmsOrderSkuQueryBo wmsOrderSkuQueryBo = wmsOrderSkuQueryBoBuilder(queryBO, commonStartTime, commonEndTime);
log.info("queryOBBacklogDataCK-wmsOrderSkuQueryBo: {}", JSON.toJSONString(wmsOrderSkuQueryBo));
CompletableFuture preDispatchCF = CompletableFuture.supplyAsync(
() -> wmsOrderSkuMapper.preDispatchInfo(wmsOrderSkuQueryBo), executor);
return processResult(preCrossDockInfoCF, preAssignOrderQtyCF, prePickingInfoCF, preSowInfoCF, preDispatchCF);
} wms.wms_ob_cross_dock
wms.wms_ob_assign_order
wms.wms_picking_task.
wms.wms_check_task_detail
wms.wms_order_skuselect
(ifnull(sum(m.shouldBeCrossedDockQty),
0) -
ifnull(sum(m.satisfiedCrossedDockQty),
0)) as preCrossStockSkuQty,
count(m.docId) as preCrossStockTaskQty
from
wms.wms_ob_cross_dock m final
prewhere
m.createTime >= '2021-12-03 11:00:00'
and m.createTime <= '2021-12-14 11:00:00'
and m.warehouseNo = '279_1'
and m.orderType = '10'
and tenantCode = 'TC90230202'
where
m.deleted = 0
and m.deliveryDestination = '2'
and m.shipmentOrderDeleted = 0
and m.status = 0从上面SQL截图可以看出,查询待越库件数&待越库任务数,共读了720817行数据
select count(distinct m.orderNo) as preAssignedOrderQty
from wms.wms_ob_assign_order m final
prewhere
m.createTime >= '2021-12-03 11:00:00'
and m.createTime <= '2021-12-14 11:00:00'
and m.warehouseNo = '361_0'
and tenantCode = 'TC90230202'
where m.taskassignStatus = 0
and m.deliveryDestination = 2
and m.stopProductionFlag = 0
and m.deleted = 0
and m.orderType = 10从上面SQL截图可以看出,查询集合任务信息-待分配订单,共读了153118行数据
select minus(toInt32(ifnull(sum(m.locateQty), toDecimal64(0, 4))),
toInt32(ifnull(sum(m.pickedQty), toDecimal64(0, 4)))) as prePickingSkuQty,
count(distinct m.taskNo) as prePickingTaskQty
from wms.wms_picking_task m final
prewhere
m.shipmentOrderCreateTime >= '2021-12-03 11:00:00'
and m.shipmentOrderCreateTime <= '2021-12-14 11:00:00'
and m.warehouseNo = '286_1'
and tenantCode = 'TC90230202'
where m.pickingTaskDeleted = 0
and m.deliveryDestination = 2
and m.pickLocalDetailDeleted = 0
and m.shipmentOrderDeleted = 0
and m.orderType = 10
and (m.operateStatus = 0 or m.operateStatus = 1)从上面SQL截图可以看出,查询拣货信息-待拣货件数&待拣货任务数,共读了2673536行数据
select minus(toInt32(ifnull(sum(m.locateQty), toDecimal64(0, 4))),
toInt32(ifnull(sum(m.pickedQty), toDecimal64(0, 4)))) as prePickingSkuQty,
count(distinct m.taskNo) as prePickingTaskQty
from wms.wms_picking_task m final
prewhere
m.shipmentOrderCreateTime >= '2021-12-03 11:00:00'
and m.shipmentOrderCreateTime <= '2021-12-14 11:00:00'
and m.warehouseNo = '279_1'
and tenantCode = 'TC90230202'
where m.pickingTaskDeleted = 0
and m.deliveryDestination = 2
and m.pickLocalDetailDeleted = 0
and m.shipmentOrderDeleted = 0
and m.orderType = 10
and (m.operateStatus = 0 or m.operateStatus = 1)从上面SQL截图可以看出,查询分播信息-待分播件数&待分播任务,共读了1448149行数据
select ifnull(sum(m.unTrackQty), 0) as unTrackQty
from wms.wms_order_sku m final
prewhere
m.shipmentOrderCreateTime >= '2021-12-03 11:00:00'
and m.shipmentOrderCreateTime <= '2021-12-14 11:00:00'
and m.warehouseNo = '280_1'
and m.orderType = '10'
and m.deliveryDestination = '2'
and tenantCode = 'TC90230202'
where m.shipmentOrderDeleted <> '1'
and m.ckDeliveryTaskDeleted <> '1'
and m.ckDeliveryTaskDetailDeleted <> '1'
and m.ckDeliveryTaskStatus in ('1','0','2')从上面SQL截图可以看出,查询发货信息-待发货件数,共读了99591行数据
为了尽可能发挥性能压测作用,性能压测环境应当尽可能同线上环境一致,所以我们使用了和线上一样的环境
Forcebot(http://forcebot.jd.com) 是专门为开发人员、测试人员提供的性能测试平台,通过编写脚本、配置监控、设置场景、启动任务、实时监控、日志定位、导出报告一系列操作流程来完成性能测试,灵活的脚本配置满足同步、异步、集合点等多种发压模式。
帮助文档(http://doc.jd.com/forcebot/helper/)
clickhouse数据服务:32C128G6节点2副本
应用服务器:4核8G2
maxTotal=16
注:每次压测前,一定要观察每个数据节点的cpu使用率
注:从上面压测过程中,序号6-12可以看出,并发用户数在增加,但tps没有幅度变化,检查发现bigdata dbcp数据库链接池最大线程数未配置,默认最大线程数是8,并发用户数增加至8以后,clickhouse cpu稳定在40%~50%之间不再增加,应用服务器CPU稳定在25%左右。
之后我们调整maxTotal=50,通过调整max_thread不同的值,数据库节点CPU使用率保持在50%左右,来查看相应的监测数据指标:应用服务CPU使用率、TPS、TP99、并发用户数。
clickhouse数据节点,CPU使用率:
Elasticsearch数据服务:32C128G6节点2副本
应用服务器:4核8G2
Elasticsearch同样保持数据库服务CPU使用率达到(50%左右),再监控数据指标tps、tp99
调整指标如下:coordinating协调节点数、 数据节点、poolSize
指标1:coordinating=2,数据节点=4,poolSize=400
注:在压测的过程中发现,coordinating节点的cpu使用率达到51.69%,负载均衡的作用受限,所以协调节点需扩容2个节点
指标2:coordinating=4,数据节点=5,poolSize=800
注:在压测的过程中,发现CPU使用率(数据库)ES数据节点在40%左右的时候,一直上不去,查看日志发现activeCount已经达到797,需要增加poolSize值
指标3:coordinating=4,数据节点=5,poolSize=1200
注:压测过程中,发现coordinating协调节点还是需要扩容,不能支持现在数据节点cpu使用率达到50%
Elasticsearch数据节点及协调节点,CPU使用率:
我们在压测的过程中发现一些之前在开发过程中没发现的问题,首先bdcp数bigdata应用服务器,使用的线程池最大线程数为8时,成为瓶颈,用户数增加至8以后, clickhouse的cpu稳定在40%~50%之间不在增加,应用服务器CPU稳定在25%左右,其次warehouse集群协调节点配置低,协调节点CPU使用率高,最后是clickhouse-jdbc JavaCC解析sql效率低。
1)clickhouse对并发有一定的支持,并不是不支持高并发,可以通过调整max_thread提高并发
2)在并发方面Elasticsearch比clickhouse支持的更好,但是相应的响应速度慢很多
综合考量,我们认为clickhouse足以支撑我们的业务诉求
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