来OB这么久还没有接触啥金融的SQL,只能发点其他行业的数据库SQL优化案例。
今天拿到手的这个案例SQL传统行业的,很奇葩的SQL,表设计三范式都没弄好。
什么医疗,交通,能源这些传统行业的业务设计,SQL语句最奇葩了,也挺好玩的,有挑战性。
慢SQL:
SELECT LI.STATUS, FI.SOFL_SEQ_NR ,PI.CLAZZ,PI.HV_TYPE FROM LNF LI, PNF PI, FNF FI WHERE 1=1 AND LI.ALN_CD = DECODE(FI.ALN_CD, 'OQ', 'CZ', FI.ALN_CD) and li.dep_arp_cd = fi.act_dep_cd and li.flt_nr = DECODE(fi.aln_cd,'OQ',substr(( select cz_flt_nr from OQ_FLT_INFO oq where substr(oq.oq_flt_nr,3,4)= fi.flt_nr) ,3,4), fi.flt_nr) and li.FLT_DT=FI.FLT_DT AND LI.FK_PSGR_ID = PI.PSGR_ID AND (PI.HV_TYPE IS NOT NULL OR PI.CLAZZ IN ('F', 'F1', 'J', 'C', 'D', 'I', 'O')) and FI.FLT_DT=date'2024-04-01' and FI.SCH_DEP_CD='CAN' ORDER BY FI.SOFL_SEQ_NR ;
执行时间:
执行计划(看不看得懂随缘、反正我没看):
1 #NSET2: [2903, 556029, 632] 2 #PIPE2: [2903, 556029, 632] 3 #PIPE2: [2901, 556029, 632] 4 #PRJT2: [2899, 556029, 632]; exp_num(4), is_atom(FALSE) 5 #SORT3: [2899, 556029, 632]; key_num(1), is_distinct(FALSE), top_flag(0), is_adaptive(0) 6 #UNION FOR OR2: [2788, 556029, 632]; key_num(0), outer_join(-) 7 #SLCT2: [1334, 278014, 632]; LI.FLT_NR = exp_simple_case 8 #HASH2 INNER JOIN: [1334, 278014, 632]; KEY_NUM(2); KEY(FI.ACT_DEP_CD=LI.DEP_ARP_CD AND exp_simple_case=LI.ALN_CD) KEY_NULL_EQU(0, 0) 9 #BLKUP2: [1, 385, 247]; IDX_FLIGHT_INFO02(FI) 10 #SSEK2: [1, 385, 247]; scan_type(ASC), IDX_FLIGHT_INFO02(FNF as FI), scan_range[(exp_cast(2024-04-01),'CAN',min),(exp_cast(2024-04-01),'CAN',max)) 11 #SLCT2: [1324, 37479, 385]; NOT(PI.HV_TYPE IS NULL) 12 #HASH2 INNER JOIN: [1324, 37479, 385]; RKEY_UNIQUE KEY_NUM(1); KEY(LI.FK_PSGR_ID=PI.PSGR_ID) KEY_NULL_EQU(0) 13 #SLCT2: [1324, 37479, 385]; NOT(PI.HV_TYPE IS NULL) 14 #NEST LOOP INDEX JOIN2: [1324, 37479, 385] 15 #ACTRL: [1324, 37479, 385]; 16 #BLKUP2: [1049, 37479, 247]; INDEX_LU_INTO_TAG_0416(LI) 17 #SLCT2: [1049, 37479, 247]; LI.FLT_DT = var3 18 #SSCN: [1049, 37479, 247]; INDEX_LU_INTO_TAG_0416(LNF as LI); btr_scan(1) 19 #BLKUP2: [244, 1, 30]; INDEX33555482(PI) 20 #SSEK2: [244, 1, 30]; scan_type(ASC), INDEX33555482(PNF as PI), scan_range[LI.FK_PSGR_ID,LI.FK_PSGR_ID] 21 #CSCN2: [475, 3573399, 138]; INDEX33555481(PNF as PI); btr_scan(1) 22 #SLCT2: [1334, 278014, 632]; LI.FLT_NR = exp_simple_case 23 #HASH2 INNER JOIN: [1334, 278014, 632]; KEY_NUM(2); KEY(FI.ACT_DEP_CD=LI.DEP_ARP_CD AND exp_simple_case=LI.ALN_CD) KEY_NULL_EQU(0, 0) 24 #BLKUP2: [1, 385, 247]; IDX_FLIGHT_INFO02(FI) 25 #SSEK2: [1, 385, 247]; scan_type(ASC), IDX_FLIGHT_INFO02(FNF as FI), scan_range[(exp_cast(2024-04-01),'CAN',min),(exp_cast(2024-04-01),'CAN',max)) 26 #SLCT2: [1324, 37479, 385]; (exp11 AND PI.CLAZZ IN LIST) 27 #HASH2 INNER JOIN: [1324, 37479, 385]; RKEY_UNIQUE KEY_NUM(1); KEY(LI.FK_PSGR_ID=PI.PSGR_ID) KEY_NULL_EQU(0) 28 #SLCT2: [1324, 37479, 385]; (exp11 AND PI.CLAZZ IN LIST) 29 #NEST LOOP INDEX JOIN2: [1324, 37479, 385] 30 #ACTRL: [1324, 37479, 385]; 31 #BLKUP2: [1049, 37479, 247]; INDEX_LU_INTO_TAG_0416(LI) 32 #SLCT2: [1049, 37479, 247]; LI.FLT_DT = var4 33 #SSCN: [1049, 37479, 247]; INDEX_LU_INTO_TAG_0416(LNF as LI); btr_scan(1) 34 #BLKUP2: [244, 1, 30]; INDEX33555482(PI) 35 #SSEK2: [244, 1, 30]; scan_type(ASC), INDEX33555482(PNF as PI), scan_range[LI.FK_PSGR_ID,LI.FK_PSGR_ID] 36 #CSCN2: [475, 3573399, 138]; INDEX33555481(PNF as PI); btr_scan(1) 37 #SPL2: [1, 279, 343]; key_num(2), spool_num(1), is_atom(FALSE), has_var(0), sites(-) 38 #PRJT2: [1, 279, 343]; exp_num(2), is_atom(FALSE) 39 #HASH2 INNER JOIN: [1, 279, 343]; KEY_NUM(1); KEY(exp11=FI.FLT_NR) KEY_NULL_EQU(0) 40 #CSCN2: [1, 279, 96]; INDEX33555478(OQ_FLT_INFO as OQ); btr_scan(1) 41 #BLKUP2: [1, 385, 247]; IDX_FLIGHT_INFO02(FI) 42 #SSEK2: [1, 385, 247]; scan_type(ASC), IDX_FLIGHT_INFO02(FNF as FI), scan_range[(exp_cast(2024-04-01),'CAN',min),(exp_cast(2024-04-01),'CAN',max)) 43 #SPL2: [1, 279, 343]; key_num(2), spool_num(0), is_atom(FALSE), has_var(0), sites(-) 44 #PRJT2: [1, 279, 343]; exp_num(2), i服务器托管s_atom(FALSE) 45 #HASH2 INNER JOIN: [1, 279, 343]; KEY_NUM(1); KEY(exp11=FI.FLT_NR) KEY_NULL_EQU(0) 46 #CSCN2: [1, 279, 96]; INDEX33555478(OQ_FLT_INFO as OQ); btr_scan(1) 47 #BLKUP2: [1, 385, 247]; IDX_FLIGHT_INFO02(FI) 48 #SSEK2: [1, 385, 247]; scan_type(ASC), IDX_FLIGHT_INFO02(FNF as FI), scan_range[(exp_cast(2024-04-01),'CAN',min),(exp_cast(2024-04-01),'CAN',max))
表数据量:
上面SQL跑28秒,返回8行数据,还是挺慢的。
DM哥们说他已经加个HINT对 or 进行整体优化,但是还要跑12秒,客户不接受,所以找到我来看看。
加HINT优化方案:
SELECT /*+ OPTIMIZER_OR_NBEXP(2) */ LI.STATUS, FI.SOFL_SEQ_NR ,PI.CLAZZ,PI.HV_TYPE FROM LNF LI, PNF PI, FNF FI WHERE 1=1 AND LI.ALN_CD = DECODE(FI.ALN_CD, 'OQ', 'CZ', FI.ALN_CD) and li.dep_arp_cd = fi.act_dep_cd and li.flt_nr = DECODE(fi.aln_cd,'OQ',substr(( select cz_flt_nr from OQ_FLT_INFO oq where substr(oq.oq_flt_nr,3,4)= fi.flt_nr) ,3,4), fi.flt_nr) and li.FLT_DT=FI.FLT_DT AND LI.FK_PSGR_ID = PI.PSGR_ID AND (PI.HV_TYPE IS NOT NULL OR PI.CLAZZ IN ('F', 'F1', 'J', 'C', 'D', 'I', 'O')) and FI.FLT_DT=date'2024-04-01' and FI.SCH_DEP_CD='CAN' ORDER BY FI.SOFL_SEQ_NR ;
加HINT后执行计划:
1 #NSET2: [1372, 278014, 608] 2 #PIPE2: [1372, 278014, 608] 3 #PRJT2: [1371, 278014, 608]; exp_num(4), is_atom(FALSE) 4 #SORT3: [1371, 278014, 608]; key_num(1), is_distinct(FALSE), top_flag(0), is_adaptive(0) 5 #SLCT2: [1317, 278014, 608]; LI.FLT_NR = exp_simple_case 6 #HASH2 INNER JOIN: [1317, 278014, 608]; KEY_NUM(2); KEY(FI.ACT_DEP_CD=LI.DEP_ARP_CD AND exp_simple_case=LI.ALN_CD) KEY_NULL_EQU(0, 0) 7 #BLKUP2: [1, 385, 247]; IDX_FLIGHT_INFO02(FI) 8 #SSEK2: [1, 385, 247]; scan_type(ASC), IDX_FLIG服务器托管HT_INFO02(FNF as FI), scan_range[(exp_cast(2024-04-01),'CAN',min),(exp_cast(2024-04-01),'CAN',max)) 9 #SLCT2: [1307, 37479, 361]; (NOT(PI.HV_TYPE IS NULL) OR PI.CLAZZ IN LIST) 10 #HASH2 INNER JOIN: [1307, 37479, 361]; RKEY_UNIQUE KEY_NUM(1); KEY(LI.FK_PSGR_ID=PI.PSGR_ID) KEY_NULL_EQU(0) 11 #SLCT2: [1307, 37479, 361]; (NOT(PI.HV_TYPE IS NULL) OR PI.CLAZZ IN LIST) 12 #NEST LOOP INDEX JOIN2: [1307, 37479, 361] 13 #ACTRL: [1307, 37479, 361]; 14 #BLKUP2: [1032, 37479, 235]; INDEX_LU_INTO_TAG_0416(LI) 15 #SLCT2: [1032, 37479, 235]; LI.FLT_DT = var2 16 #SSCN: [1032, 37479, 235]; INDEX_LU_INTO_TAG_0416(LNF as LI); btr_scan(1) 17 #BLKUP2: [244, 1, 30]; INDEX33555482(PI) 18 #SSEK2: [244, 1, 30]; scan_type(ASC), INDEX33555482(PNF as PI), scan_range[LI.FK_PSGR_ID,LI.FK_PSGR_ID] 19 #CSCN2: [467, 3573399, 126]; INDEX33555481(PNF as PI); btr_scan(1) 20 #SPL2: [1, 279, 343]; key_num(2), spool_num(0), is_atom(FALSE), has_var(0), sites(-) 21 #PRJT2: [1, 279, 343]; exp_num(2), is_atom(FALSE) 22 #HASH2 INNER JOIN: [1, 279, 343]; KEY_NUM(1); KEY(exp11=FI.FLT_NR) KEY_NULL_EQU(0) 23 #CSCN2: [1, 279, 96]; INDEX33555478(OQ_FLT_INFO as OQ); btr_scan(1) 24 #BLKUP2: [1, 385, 247]; IDX_FLIGHT_INFO02(FI) 25 #SSEK2: [1, 385, 247]; scan_type(ASC), IDX_FLIGHT_INFO02(FNF as FI), scan_range[(exp_cast(2024-04-01),'CAN',min),(exp_cast(2024-04-01),'CAN',max))
HINT 执行时间:
12秒对原来的28秒来说已经提升了很大的空间,但是客户表示不满意:ORACLE能秒出结果,到了达梦以后执行时间多了12倍,接受不了。
无解,最后找到哥,看看能不能帮他让这条SQL“秒出结果”。
简单看了看,加索引和使用HINT都不好使,只能等价改写了,再创建合适的索引,让这条SQL走上新的索引。
等价改写 + 索引优化方案:
SELECT LI.STATUS, FI.SOFL_SEQ_NR, PI.CLAZZ, PI.HV_TYPE FROM LNF LI INNER JOIN (SELECT ACT_DEP_CD, FLT_DT, SOFL_SEQ_NR, DECODE(ALN_CD, 'OQ', 'CZ', ALN_CD) V1, DECODE(ALN_CD, 'OQ', SUBSTR( (SELECT CZ_FLT_NR FROM OQ_FLT_INFO OQ WHERE SUBSTR(OQ.OQ_FLT_NR, 3, 4) = FLT_NR), 3, 4), FLT_NR) V2 FROM FNF WHERE FLT_DT = DATE'2024-04-01' AND SCH_DEP_CD = 'CAN' AND ROWNUM > 0) FI ON LI.DEP_ARP_CD = FI.ACT_DEP_CD AND LI.FLT_DT = FI.FLT_DT AND LI.ALN_CD = FI.V1 AND LI.FLT_NR = FI.V2 INNER JOIN (WITH PI AS (SELECT PSGR_ID, HV_TYPE, CLAZZ FROM PNF) SELECT DISTINCT PSGR_ID, HV_TYPE, CLAZZ FROM (SELECT PSGR_ID, HV_TYPE, CLAZZ FROM PI WHERE (PI.HV_TYPE IS NOT NULL) UNION ALL SELECT PSGR_ID, HV_TYPE, CLAZZ FROM PI WHERE PI.CLAZZ IN ('F', 'F1', 'J', 'C', 'D', 'I', 'O'))) PI ON LI.FK_PSGR_ID = PI.PSGR_ID ORDER BY FI.SOFL_SEQ_NR; -- 加索引: create index idx_pi_1_2 on PNF( PSGR_ID,CLAZZ,HV_TYPE ); create index idx_fi_1_2 on FNF ( act_dep_cd,FLT_DT ); CREATE index idx_1_2_3_FI on FNF(FLT_DT,SCH_DEP_CD,act_dep_cd,SOFL_SEQ_NR); CREATE index idx_1_2_3_li on LNF(ALN_CD,dep_arp_cd,flt_nr,FLT_DT,FK_PSGR_ID,STATUS); CREATE index idx_1_2_3 on FNF(FLT_DT,SCH_DEP_CD);
优化后执行计划:
#NSET2: [821, 385, 596] 2 #PIPE2: [821, 385, 596] 3 #PRJT2: [821, 385, 596]; exp_num(4), is_atom(FALSE) 4 #SORT3: [821, 385, 596]; key_num(1), is_distinct(FALSE), top_flag(0), is_adaptive(0) 5 #SLCT2: [820, 385, 596]; LI.FK_PSGR_ID = PI.PSGR_ID 6 #NEST LOOP INNER JOIN2: [820, 385, 596]; [with var] 7 #HASH2 INNER JOIN: [2, 385, 470]; KEY_NUM(4); KEY(FI.ACT_DEP_CD=LI.DEP_ARP_CD AND FI.FLT_DT=LI.FLT_DT AND FI.V1=LI.ALN_CD AND FI.V2=LI.FLT_NR) KEY_NULL_EQU(0, 0, 0, 0) 8 #NEST LOOP INDEX JOIN2: [2, 385, 470] 9 #ACTRL: [2, 385, 470]; 10 #PRJT2: [1, 385, 235]; exp_num(5), is_atom(FALSE) 11 #RN: [1, 385, 235] 12 #BLKUP2: [1, 385, 235]; IDX_FLIGHT_INFO02(FNF) 13 #SSEK2: [1, 385, 235]; scan_type(ASC), IDX_FLIGHT_INFO02(FNF), scan_range[(exp_cast(2024-04-01),'CAN',min),(exp_cast(2024-04-01),'CAN',max)) 14 #SSEK2: [1, 1, 235]; scan_type(ASC), IDX_1_2_3_LI(LNF as LI), scan_range[(FI.V1,FI.ACT_DEP_CD,FI.V2,FI.FLT_DT,min,min),(FI.V1,FI.ACT_DEP_CD,FI.V2,FI.FLT_DT,max,max)) 15 #SSCN: [989, 6461936, 235]; IDX_1_2_3_LI(LNF as LI); btr_scan(1) 16 #PRJT2: [2, 1, 126]; exp_num(3), is_atom(FALSE) 17 #DISTINCT: [2, 1, 126] 18 #PRJT2: [1, 2, 126]; exp_num(3), is_atom(FALSE) 19 #UNION ALL: [1, 2, 126] 20 #PRJT2: [1, 1, 126]; exp_num(3), is_atom(FALSE) 21 #SLCT2: [1, 1, 126]; NOT(PNF.HV_TYPE IS NULL) 22 #BLKUP2: [1, 1, 126]; INDEX33555482(PNF) 23 #SSEK2: [1, 1, 126]; scan_type(ASC), INDEX33555482(PNF), scan_range[var4,var4] 24 #PRJT2: [1, 1, 126]; exp_num(3), is_atom(FALSE) 25 #HASH RIGHT SEMI JOIN2: [1, 1, 126]; n_keys(1) KEY(DMTEMPVIEW_889228539.colname=PNF.CLAZZ) KEY_NULL_EQU(0) 26 #CONST VALUE LIST: [1, 7, 48]; row_num(7), col_num(1) 27 #BLKUP2: [1, 1, 126]; INDEX33555482(PNF) 28 #SSEK2: [1, 1, 126]; scan_type(ASC), INDEX33555482(PNF), scan_range[var4,var4] 29 #SPL2: [1, 1, 96]; key_num(1), spool_num(0), is_atom(TRUE), has_var(1), sites(-) 30 #PRJT2: [1, 1, 96]; exp_num(1), is_atom(TRUE) 31 #BLKUP2: [1, 6, 96]; INDEX33555479(OQ) 32 #SLCT2: [1, 6, 96]; var3 = exp11 33 #SSCN: [1, 6, 96]; INDEX33555479(OQ_FLT_INFO as OQ); btr_scan(1)
执行时间:
通过改写+创建索引优化后,能做到像ORACLE这样,真“秒出结果”。
堆表和索引组织表的区别还是蛮大的,以前的老系统,业务SQL写得烂,用堆表跑问题不大,Oracle cbo算法牛逼也抗得住。
但是现在很多国产数据库都是使用索引组织表(IOT表),例如 OB、DM、TIDB 等国产数据库。
由于IOT表的特性在使用场景来说,对些老系统来说并不友好(老系统业务设计随意、业务逻辑较多在数据库层面实现),所以会产生很多性能问题:ORACLE 的索引都迁移到国产数据库了,性能还这么差,为什么没用上原来的索引啥的,等等诸如此类的问题。
要做国产化适配改造,并不能满足数据库功能、特性上的实现,业务模型也要配合整体来进行改造。
感谢各位读者同学能看到这里,如果有一些奇葩的SQL问题也可以联系我。
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