InnoDB中索引块的内部组织一直是大家比较感兴趣并且乐于研究的东西,我们从很多书籍和文章都不惜笔墨进行大量的描述比如<<MySQL运维内参>>中就能感受到作者用了大量篇幅描述什么是slot、什么是heap、记录的逻辑和物理顺序是怎么样的。
但是我们却很难直观的看到,因为数据文件是二进制文件。虽然我们可以通过例如LINUX的hexdump等类似命令进行查看,但是大量的16进制信息很难直观的提取出各种有用的信息,相信不少人和笔者一样都是通过肉眼进行查看,但是这显然是一种吃力又不讨好的方法。
在Oracle中我们可以通过dump block的方法查看block的信息,那么InnoDB是否也可以这样呢?
本着这种让大家更加直观的观察到底层索引块的信息的宗旨,笔者直接借用源码中的各种宏定义,使用C++和STL list容器实现了这样一个工具innblock。由于工作原因不能全身心投入代码编写,代码有些混乱。所以如果有bug还请大家见谅以及提出,笔者会尽快进行更新,感谢。
index page(索引页、索引块),InnoDB表是基于聚集索引的索引组织表,整个表其实不是聚集索引,就是普通索引。因此InnoDB表空间文件中,数据页其实也是索引页,所以下面我们统称为索引页,英文用page no表示;
本工具有2个功能。
第一个scan功能用于查找ibd文件中所有的索引页。
第二个analyze功能用于扫描数据块里的row data。
先看下 help 输出
------------------------------------------------------------------------
-------USAGE:../innblock Datafile [scan/pageno] Blocksize
[Datafile]:innodb data file!
[scan]:physical scan data file to find index level and index block no
[pageno]:which block you will parse
[Blocksize](KB):block size of KB general is 16k only 4k/8k/16k/32k
------------------------------------------------------------------------
- scan功能
[root@test test]# ./innblock testblock.ibd scan 16
- analyze功能
[root@test test]# ./innblock testblock.ibd 3 16
可以执行 innblock help 获得更详细的使用帮助信息。
- 不支持REDUNDANT行格式的数据文件;
- 只支持LINUX x64平台;
- 本工具直接读取物理文件,部分dirty page可能延时刷盘而未能被读取到,可以让InnoDB及时刷盘再重新读取;
- 最好在MySQL 5.6/5.7版本下测试;
- 只能解析索引页,不支持inode page、undo log等类型的page;
- scan功能会包含delete后的索引块和drop了的索引块.
- 不能读取详细的row data;
- 建议采用独立表空间模式,更便于观察;
- 建议仅在测试环境下学习和研究使用。
首先,创建测试表,填充数据
mysql> create table testblock (
id1 int primary key,
name varchar(30),
id3 int,
key(name),
key(id3));
mysql> insert into testblock values(1,'gao',1),(2,'gao',2),(3,'gao',3),(4,'gao',4);
mysql> delete from testblock where id1=1;
[root@test]# innblock testblock.ibd scan 16
------------------------------------------------------------------------
Welcome to use this block analyze tool:
------------------------------------------------------------------------
Datafile Total Size:131072
===INDEX_ID:248
level0 total block is (1)
block_no: 3,level: 0|*|
===INDEX_ID:249
level0 total block is (1)
block_no: 4,level: 0|*|
===INDEX_ID:250
level0 total block is (1)
block_no: 5,level: 0|*|
我们发现有3个索引,索引ID(INDEX_ID)分别是 248、249、250,查看数据字典确认
mysql> SELECT A.SPACE AS TBL_SPACEID, A.TABLE_ID, A.NAME AS TABLE_NAME, FILE_FORMAT, ROW_FORMAT, SPACE_TYPE, B.INDEX_ID , B.NAME AS INDEX_NAME, PAGE_NO, B.TYPE AS INDEX_TYPE FROM INNODB_SYS_TABLES A LEFT JOIN INNODB_SYS_INDEXES B ON A.TABLE_ID =B.TABLE_ID WHERE A.NAME = 'test/testblock’;
+-------------+----------+----------------+-------------+------------+------------+----------+------------+---------+------------+
| TBL_SPACEID | TABLE_ID | TABLE_NAME | FILE_FORMAT | ROW_FORMAT | SPACE_TYPE | INDEX_ID | INDEX_NAME | PAGE_NO | INDEX_TYPE |
+-------------+----------+----------------+-------------+------------+------------+----------+------------+---------+------------+
| 242 | 168 | test/testblock | Barracuda | Dynamic | Single | 248 | PRIMARY | 3 | 3 |
| 242 | 168 | test/testblock | Barracuda | Dynamic | Single | 249 | name | 4 | 0 |
| 242 | 168 | test/testblock | Barracuda | Dynamic | Single | 250 | id3 | 5 | 0 |
+-------------+----------+----------------+-------------+------------+------------+----------+------------+---------+------------+
我们选取 pageno=3 那个索引页进行扫描,可见下面信息
[root@test test]# innblock testblock.ibd 3 16
------------------------------------------------------------------------
Welcome to use this block analyze tool:
[Author]:gaopeng [Blog]:blog.itpub.net/7728585/abstract/1/ [QQ]:22389860
[Review]:yejinrong@zhishutang [Blog]:imysql.com [QQ]:4700963
------------------------------------------------------------------------
==== Block base info ====
block_no:3 space_id:242 index_id:248
slot_nums:2 heaps_rows:6 n_rows:3
heap_top:244 del_bytes:31 last_ins_offset:0
page_dir:2 page_n_dir:3
leaf_inode_space:242 leaf_inode_pag_no:2
leaf_inode_offset:242
no_leaf_inode_space:242 no_leaf_inode_pag_no:2
no_leaf_inode_offset:50
last_modify_lsn:510679871
page_type:B+_TREE level:0
==== Block list info ====
-----Total used rows:5 used rows list(logic):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(3) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:220 heapno:5 n_owned 0,delflag:N minflag:0 rectype:0
(5) SUPREMUM record offset:112 heapno:1 n_owned 4,delflag:N minflag:0 rectype:3
-----Total used rows:5 used rows list(phy):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) SUPREMUM record offset:112 heapno:1 n_owned 4,delflag:N minflag:0 rectype:3
(3) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(5) normal record offset:220 heapno:5 n_owned 0,delflag:N minflag:0 rectype:0
-----Total del rows:1 del rows list(logic):
(1) normal record offset:127 heapno:2 n_owned 0,delflag:Y minflag:0 rectype:0
-----Total slot:2 slot list:
(1) SUPREMUM slot offset:112 n_owned:4
(2) INFIMUM slot offset:99 n_owned:1
我在工具的help文档中也有详细的解释,这里单独对analyze功能解析数据块的输出详解一番,并且我也会给出这些值来自源码的哪个宏定义。这部分知识点在<<MySQL运维内参>>中也有详细说明。
-
[block_no]:page offset no inside space,begin is 0(取自 FIL_PAGE_OFFSET) 索引页码(index page no),该页相对于表空间的偏移量,从0开始计数。如果page no = 3,则实际上是第4个index page。
-
[space_id]:this contains the space id of the page(FIL_PAGE_SPACE_ID) 本索引页所属的表空间ID,可以在 INNODB_SYS_TABLES、INNODB_SYS_TABLESPACES、INNODB_SYS_DATAFILES 等系统视图中查看。
-
[index_id]:index id where the page belongs.This field should not be written to after page creation. (PAGE_INDEX_ID) 本索引页所属的索引ID,可以在 INNODB_SYS_INDEXES 系统视图中查看。
-
[slot_nums]:number of slots in page directory(PAGE_N_DIR_SLOTS) 本索引页中所包含的slot(槽)的数量。
-
[heaps_rows]:number of records in the heap include delete rows after purge and INFIMUM/SUPREMUM(取自PAGE_N_HEAP) 本索引页中的全部记录数量,这其中包含了已经deleted且已被purged的记录(这种记录会被放到索引页的garbage队列中),以及两个伪记录INFIMUM/SUPREMUM。
-
[n_rows]:number of records not include delete rows after pruge and INFIMUM/SUPREMUM(PAGE_N_RECS) 本索引页中的记录数,不含deleted且已被purged的记录,以及两个伪记录INFIMUM、SUPREMUM。
-
[heap_top]:pointer offset to record heap top (PAGE_HEAP_TOP) 指向本索引页已分配的最大物理存储空间的偏移量。
-
[del_bytes]:number of bytes in deleted records after purge(PAGE_GARBAGE) 本索引页中所有deleted了的且已被purged的记录的总大小。
-
[last_ins_offset]:pointer to the last inserted record, or NULL if this info has been reset by a delete(PAGE_LAST_INSERT) 指向本索引页最后插入记录的位置偏移量,如果最后操作是delete,则这个偏移量为空。通过判断索引页内数据最后插入的方向,用于索引分裂判断。
-
[page_dir]:last insert direction: PAGE_LEFT, ...(PAGE_DIRECTION) 本索引页中数据最后插入的方向,同样用于索引分裂判断。
-
[page_n_dir]:number of consecutive inserts to the same direction(PAGE_N_DIRECTION) 向同一个方向插入数据的行数,同样用于索引分裂中进行判断
-
[leaf_inode_space leaf_inode_pag_no leaf_inode_offset]:leaf segment postion and in inode block offset,only root block(PAGE_BTR_SEG_LEAF开始 10字节)
-
[no_leaf_inode_space no_leaf_inode_pag_no no_leaf_inode_offset]:no_leaf segment postion and in inode block offset,only root block(取自PAGE_BTR_SEG_TOP 开始 10字节) 这6个值只在root节点会有信息,分别表示了叶子段和非叶子段的inode的位置和在inode块中的偏移量,其他块都为0。
-
[last_modify_lsn]:lsn of the end of the newest modification log record to the page(FIL_PAGE_LSN) 本块最后一次修改的LSN。
-
[page_type]:for this tool only B+_TREE(FIL_PAGE_TYPE) 对于本工具而言始终为B+ TREE,因为不支持其它page type。
-
[level]:level of the node in an index tree; the leaf level is the level 0(PAGE_LEVEL) 本索引页所处的B+ TREE的层级。注意,叶子结点的PAGE LEVEL为0。
-
Total used rows:5 used rows list(logic): not delete purge rows and not delete logic sequence list(next offset list). 这个链表是逻辑有序链表,也是我们平时所说的块内数据有序的展示。它的顺序当然按照主键或者ROWID进行排列,因为是通过物理偏移量链表实现的,实际上就是逻辑上有序。我在实现的时候实际上是取了INFIMUM的偏移量开始进行扫描直到最后,但是注意被deleted且已经被purged的记录不在其中。
-
Total used rows:5 used rows list(phy): not delete purge rows and not delete physics sequence list(sort by heap no). 这个链表是物理上的顺序,实际上就是heap no的顺序,我在实现的时候实际上就是将上面的逻辑链表按照heap no进行排序完成的,所以块内部是逻辑有序物理无序的,同样注意被deleted且已被purged的记录不在其中。
-
Total del rows:1 del rows list(logic): purge delete logic sequence list(next offset list). 这个链表是逻辑上的,也就是被deleted且被purged后的记录都存在于这个链表中,通过读取块的PAGE_FREE获取链表信息。
-
Total slot:2 slot list: slot physics sequence list. 这是slot(槽的)信息,通过扫描块尾部8字节以前信息进行分析得到,我们可以发现在slot中存储的是记录的偏移量。
在这里链表中包含一些信息,这里就用help中的解析给出了。
- [record offset]:real offset in block of this record.
- [heapno]:physics heapno of this record.
- [n_owned]:if this record is slot record n_owned is how many this slot include,other is 0.
- [delflag]:this record is delete will Y,if not purge in list 1,if purge in list 3.
- [rectype]: [REC_STATUS_ORDINARY=0(B+ leaf record) [REC_STATUS_NODE_PTR=1(not B+ leaf record)] [REC_STATUS_INFIMUM=2] [REC_STATUS_SUPREMUM=3]
- [slot offset]:where(offset) this slot point,this is a record offset.no purge delete record.
- [n_owned]:how many this slot include recorods.no purge delete record.
本节全部使用测试表如下:
mysql> create table testblock (
id1 int primary key,
name varchar(30),
id3 int,
key(name),
key(id3)
);
初始化测试数据:
mysql> insert into testblock values(1,'gao',1),(2,'gao',2),(3,'gao',3),(4,'gao',4);
发起事务,先执行delete,暂不commit
mysql> begin; delete from testblock where id1=1;
分析结果:
[root@test]# innblock testblock.ibd 3 16
==== Block base info ====
block_no:3 space_id:242 index_id:248
slot_nums:2 heaps_rows:6 n_rows:4
heap_top:244 del_bytes:0 last_ins_offset:220
page_dir:2 page_n_dir:3
leaf_inode_space:242 leaf_inode_pag_no:2
leaf_inode_offset:242
no_leaf_inode_space:242 no_leaf_inode_pag_no:2
no_leaf_inode_offset:50
last_modify_lsn:510695376
page_type:B+_TREE level:0
==== Block list info ====
-----Total used rows:6 used rows list(logic):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) normal record offset:127 heapno:2 n_owned 0,delflag:Y minflag:0 rectype:0
(3) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(5) normal record offset:220 heapno:5 n_owned 0,delflag:N minflag:0 rectype:0
(6) SUPREMUM record offset:112 heapno:1 n_owned 5,delflag:N minflag:0 rectype:3
-----Total used rows:6 used rows list(phy):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) SUPREMUM record offset:112 heapno:1 n_owned 5,delflag:N minflag:0 rectype:3
(3) normal record offset:127 heapno:2 n_owned 0,delflag:Y minflag:0 rectype:0
(4) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(5) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(6) normal record offset:220 heapno:5 n_owned 0,delflag:N minflag:0 rectype:0
-----Total del rows:0 del rows list(logic):
-----Total slot:2 slot list:
(1) SUPREMUM slot offset:112 n_owned:5
(2) INFIMUM slot offset:99 n_owned:1
我们看到其中有一条记录是
(2) normal record offset:127 heapno:2 n_owned 0,delflag:Y minflag:0 rectype:0
其 delflag = Y,offset = 127,这条记录只是delete,但还没 commit,也还没被 purged,因此不会出现在 del rows list链表中。
同时注意到几个信息:
- del_bytes:0
- n_rows:4
- heaps_rows:6
三个信息结合起来看,表示还没有真正被清除的数据。
接着上面的事务,继续执行commit
mysql> commit;
Query OK, 0 rows affected (0.00 sec)
分析结果:
==== Block base info ====
block_no:3 space_id:242 index_id:248
slot_nums:2 heaps_rows:6 n_rows:3
heap_top:244 del_bytes:31 last_ins_offset:0
page_dir:2 page_n_dir:3
leaf_inode_space:242 leaf_inode_pag_no:2
leaf_inode_offset:242
no_leaf_inode_space:242 no_leaf_inode_pag_no:2
no_leaf_inode_offset:50
last_modify_lsn:510695802
page_type:B+_TREE level:0
==== Block list info ====
-----Total used rows:5 used rows list(logic):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(3) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:220 heapno:5 n_owned 0,delflag:N minflag:0 rectype:0
(5) SUPREMUM record offset:112 heapno:1 n_owned 4,delflag:N minflag:0 rectype:3
-----Total used rows:5 used rows list(phy):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) SUPREMUM record offset:112 heapno:1 n_owned 4,delflag:N minflag:0 rectype:3
(3) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(5) normal record offset:220 heapno:5 n_owned 0,delflag:N minflag:0 rectype:0
-----Total del rows:1 del rows list(logic):
(1) normal record offset:127 heapno:2 n_owned 0,delflag:Y minflag:0 rectype:0
-----Total slot:2 slot list:
(1) SUPREMUM slot offset:112 n_owned:4
(2) INFIMUM slot offset:99 n_owned:1
我们看到,执行commit,这条偏移量为127的记录被purged后入了del rows list链表
(1) normal record offset:127 heapno:2 n_owned 0,delflag:Y minflag:0 rectype:0
其delflag = Y,同时我们观察到
- del_bytes:31 //上一次看到的值是 0
- n_rows:3 //上一次看到的值是 4
- heaps_rows:6 //和上一次的值一样,因为这里计算的是物理记录数
可见,commit且被purged的数据才是真正的删除(清除)。
上面删除的记录的heapno为2,接着插入新记录
insert into testblock values(5,'gaopeng',1);
显然它的长度大于删除记录的长度。
分析结果:
==== Block base info ====
block_no:3 space_id:242 index_id:248
slot_nums:2 heaps_rows:7 n_rows:4
heap_top:279 del_bytes:31 last_ins_offset:251
page_dir:5 page_n_dir:0
leaf_inode_space:242 leaf_inode_pag_no:2
leaf_inode_offset:242
no_leaf_inode_space:242 no_leaf_inode_pag_no:2
no_leaf_inode_offset:50
last_modify_lsn:510695994
page_type:B+_TREE level:0
==== Block list info ====
-----Total used rows:6 used rows list(logic):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(3) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:220 heapno:5 n_owned 0,delflag:N minflag:0 rectype:0
(5) normal record offset:251 heapno:6 n_owned 0,delflag:N minflag:0 rectype:0
(6) SUPREMUM record offset:112 heapno:1 n_owned 5,delflag:N minflag:0 rectype:3
-----Total used rows:6 used rows list(phy):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) SUPREMUM record offset:112 heapno:1 n_owned 5,delflag:N minflag:0 rectype:3
(3) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(5) normal record offset:220 heapno:5 n_owned 0,delflag:N minflag:0 rectype:0
(6) normal record offset:251 heapno:6 n_owned 0,delflag:N minflag:0 rectype:0
-----Total del rows:1 del rows list(logic):
(1) normal record offset:127 heapno:2 n_owned 0,delflag:Y minflag:0 rectype:0
-----Total slot:2 slot list:
(1) SUPREMUM slot offset:112 n_owned:5
(2) INFIMUM slot offset:99 n_owned:1
我们看到有一条新记录
(5) normal record offset:251 heapno:6 n_owned 0,delflag:N minflag:0 rectype:0
这条记录的heapno = 6,而删除的旧记录 heapno=2,这表明它没有重用del rows list中的空间,因为删除记录的空间根本放不下这条新记录,所以只能重新分配。同时我们注意到 **heap_top = 279 ** ,这里也发生了变化,体现了实际为这行数据分配了新的heapno。
在上面的基础上,我们插入新记录
insert into testblock values(6,'gao',1);
分析结果:
==== Block base info ====
block_no:3 space_id:242 index_id:248
slot_nums:2 heaps_rows:7 n_rows:5
heap_top:279 del_bytes:0 last_ins_offset:127
page_dir:2 page_n_dir:1
leaf_inode_space:242 leaf_inode_pag_no:2
leaf_inode_offset:242
no_leaf_inode_space:242 no_leaf_inode_pag_no:2
no_leaf_inode_offset:50
last_modify_lsn:510700272
page_type:B+_TREE level:0
==== Block list info ====
-----Total used rows:7 used rows list(logic):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(3) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:220 heapno:5 n_owned 0,delflag:N minflag:0 rectype:0
(5) normal record offset:251 heapno:6 n_owned 0,delflag:N minflag:0 rectype:0
(6) normal record offset:127 heapno:2 n_owned 0,delflag:N minflag:0 rectype:0
(7) SUPREMUM record offset:112 heapno:1 n_owned 6,delflag:N minflag:0 rectype:3
-----Total used rows:7 used rows list(phy):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) SUPREMUM record offset:112 heapno:1 n_owned 6,delflag:N minflag:0 rectype:3
(3) normal record offset:127 heapno:2 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(5) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(6) normal record offset:220 heapno:5 n_owned 0,delflag:N minflag:0 rectype:0
(7) normal record offset:251 heapno:6 n_owned 0,delflag:N minflag:0 rectype:0
-----Total del rows:0 del rows list(logic):
-----Total slot:2 slot list:
(1) SUPREMUM slot offset:112 n_owned:6
(2) INFIMUM slot offset:99 n_owned:1
我们这次新写入的数据长度和删除的数据长度一致,我们发现heapno重用了del rows list中的记录没有了,而在数据逻辑顺序中多了一条
(6) normal record offset:127 heapno:2 n_owned 0,delflag:N minflag:0 rectype:0
我们发现heapno=2的记录 delflag 不再是 Y了,同时 **heap_top = 279 ** 也没有变化,del_bytes:31 变成了 del_bytes:0,都充分说明了这块空间得到重用。
清空数据表后执行测试
mysql> insert into testblock values(1,'gao',1),(2,'gao',2),(3,'gao',3),(4,'gaopeng',4);
mysql> delete from testblock where id1=4;
mysql> delete from testblock where id1=3;
mysql> insert into testblock values(5,'gaopeng',5);
在这里,我们先删除 [id1=4] 记录,后删除 [id1=3] 记录。 由于del list是头插法,所以后删除的 [id1=3] 的记录会放在del list链表的最头部,也就是 [del list header] => [id1=3] => [id1=4]。虽然 [id=4] 的记录空间足以容下新记录 (5,'gaopeng’,5),但并没被重用。因为InnoDB只检测第一个 del list 中的第一个空位 [id1=3],显然这个记录空间不足以容下新记录 (5,’gaopeng',5),所以还是新开辟了heap。
分析结果:
==== Block base info ====
block_no:3 space_id:242 index_id:248
slot_nums:2 heaps_rows:7 n_rows:3
heap_top:283 del_bytes:66 last_ins_offset:255
page_dir:5 page_n_dir:0
leaf_inode_space:242 leaf_inode_pag_no:2
leaf_inode_offset:242
no_leaf_inode_space:242 no_leaf_inode_pag_no:2
no_leaf_inode_offset:50
last_modify_lsn:510728551
page_type:B+_TREE level:0
==== Block list info ====
-----Total used rows:5 used rows list(logic):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) normal record offset:127 heapno:2 n_owned 0,delflag:N minflag:0 rectype:0
(3) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:255 heapno:6 n_owned 0,delflag:N minflag:0 rectype:0
(5) SUPREMUM record offset:112 heapno:1 n_owned 4,delflag:N minflag:0 rectype:3
-----Total used rows:5 used rows list(phy):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) SUPREMUM record offset:112 heapno:1 n_owned 4,delflag:N minflag:0 rectype:3
(3) normal record offset:127 heapno:2 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(5) normal record offset:255 heapno:6 n_owned 0,delflag:N minflag:0 rectype:0
-----Total del rows:2 del rows list(logic):
(1) normal record offset:189 heapno:4 n_owned 0,delflag:Y minflag:0 rectype:0
(2) normal record offset:220 heapno:5 n_owned 0,delflag:Y minflag:0 rectype:0
-----Total slot:2 slot list:
(1) SUPREMUM slot offset:112 n_owned:4
(2) INFIMUM slot offset:99 n_owned:1
我们看到 del list **有2条记录(没被重用),却新增加了 heapno = 6 的记录。
从重组函数 btr_page_reorganize_low 来看,PAGE_GARBAGE确实包含了碎片空间。
清空数据表后执行测试
mysql> insert into testblock values(1,'gao',1),(2,'gao',2),(3,'gao',3),(4,'gaopeng',4);
mysql> delete from testblock where id1=4;
分析结果:
==== Block base info ====
block_no:3 space_id:242 index_id:248
slot_nums:2 heaps_rows:6 n_rows:3
heap_top:248 del_bytes:35 last_ins_offset:0
page_dir:2 page_n_dir:3
leaf_inode_space:242 leaf_inode_pag_no:2
leaf_inode_offset:242
no_leaf_inode_space:242 no_leaf_inode_pag_no:2
no_leaf_inode_offset:50
last_modify_lsn:510748484
page_type:B+_TREE level:0
==== Block list info ====
-----Total used rows:5 used rows list(logic):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) normal record offset:127 heapno:2 n_owned 0,delflag:N minflag:0 rectype:0
(3) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(5) SUPREMUM record offset:112 heapno:1 n_owned 4,delflag:N minflag:0 rectype:3
-----Total used rows:5 used rows list(phy):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) SUPREMUM record offset:112 heapno:1 n_owned 4,delflag:N minflag:0 rectype:3
(3) normal record offset:127 heapno:2 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(5) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
-----Total del rows:1 del rows list(logic):
(1) normal record offset:220 heapno:5 n_owned 0,delflag:Y minflag:0 rectype:0
-----Total slot:2 slot list:
(1) SUPREMUM slot offset:112 n_owned:4
(2) INFIMUM slot offset:99 n_owned:1
注意这里 del_bytes:35 就是删除这条记录的空间的使用量。接下来执行SQL
mysql> insert into testblock values(5,'gao',5);
再次分析结果:
==== Block base info ====
block_no:3 space_id:242 index_id:248
slot_nums:2 heaps_rows:6 n_rows:4
heap_top:248 del_bytes:4 last_ins_offset:220
page_dir:5 page_n_dir:0
leaf_inode_space:242 leaf_inode_pag_no:2
leaf_inode_offset:242
no_leaf_inode_space:242 no_leaf_inode_pag_no:2
no_leaf_inode_offset:50
last_modify_lsn:510748643
page_type:B+_TREE level:0
==== Block list info ====
-----Total used rows:6 used rows list(logic):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) normal record offset:127 heapno:2 n_owned 0,delflag:N minflag:0 rectype:0
(3) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(5) normal record offset:220 heapno:5 n_owned 0,delflag:N minflag:0 rectype:0
(6) SUPREMUM record offset:112 heapno:1 n_owned 5,delflag:N minflag:0 rectype:3
-----Total used rows:6 used rows list(phy):
(1) INFIMUM record offset:99 heapno:0 n_owned 1,delflag:N minflag:0 rectype:2
(2) SUPREMUM record offset:112 heapno:1 n_owned 5,delflag:N minflag:0 rectype:3
(3) normal record offset:127 heapno:2 n_owned 0,delflag:N minflag:0 rectype:0
(4) normal record offset:158 heapno:3 n_owned 0,delflag:N minflag:0 rectype:0
(5) normal record offset:189 heapno:4 n_owned 0,delflag:N minflag:0 rectype:0
(6) normal record offset:220 heapno:5 n_owned 0,delflag:N minflag:0 rectype:0
-----Total del rows:0 del rows list(logic):
-----Total slot:2 slot list:
(1) SUPREMUM slot offset:112 n_owned:5
(2) INFIMUM slot offset:99 n_owned:1
注意到 del_bytes:4,这个刚好就是 'gaopeng' 7字节减去 'gao' 3字节剩下的4字节,我们也看到了 [heapno=5] 这个记录被重用了(del list为空,heaono=5的记录 delflag 不为 Y)。
总之本工具可以按照你的想法进行各种测试和观察。
实际上本工具我并没有显示的分配内存,内存分配基本使用了STL LIST容器检测结果如下:
==11984== LEAK SUMMARY:
==11984== definitely lost: 0 bytes in 0 blocks
==11984== indirectly lost: 0 bytes in 0 blocks
==11984== possibly lost: 0 bytes in 0 blocks
==11984== still reachable: 568 bytes in 1 blocks
==11984== suppressed: 0 bytes in 0 blocks
==11984== Reachable blocks (those to which a pointer was found) are not shown.
==11984== To see them, rerun with: --leak-check=full --show-reachable=yes