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9年前发布

透过pageinspect了解PostgreSQl中的page

        博客 PostgreSQL的Page分析记录 有过对page的 大体介绍,可以参看之前的blog,下面主要通过插件 pageinspect 向大家进行介绍。

        在此之前需要了解的名词:
        page,物理文件的单位,默认大小为8K。
        tuple,PG中物理行。
        xid,事务号,执行操作时的顺序id。

        pageinspect里边有三个函数是本文用到的,他们分别是:
        a.get_raw_page,根据参数表明、数据文件类型(main、fsm、vm)以及page位置,将当前表文件中的page内容返回。还有一个函数于此同名,只有两个参数,是将第二个参数省略,直接使用'main'。
        b.page_header,参数是函数get_raw_page的返回值,返回值是将本page结构中的PageHeaderData详细信息
        c.heap_page_items,参数是函数get_raw_page的返回值,返回值是将page内的项指针(ItemIddata)以及HeapTupleHeaderData的详细信息。

        下面通过例子来对page的PageHeaderDataItemIddata和HeapTupleHeaderData进行说明
        a.建表mvcc

[postgres@localhost bin]$ ./psql   psql (9.4.5)  Type "help" for help.    postgres=# create table mvcc(id int);  CREATE TABLE  postgres=# insert into mvcc values (1),(2);  INSERT 0 2

         b.PageHeaderData

postgres=# select * from page_header(get_raw_page('mvcc', 'main', 0));      lsn    | checksum | flags | lower | upper | special | pagesize | version | p  rune_xid   -----------+----------+-------+-------+-------+---------+----------+---------+--  ---------   0/300F4D8 |        0 |     0 |    32 |  8128 |    8192 |     8192 |       4 |           0  (1 row)
        这是表mvcc的PageHeaderData信息,现在比对源码对各个字段进行解释:
typedef struct PageHeaderData  {   /* XXX LSN is member of *any* block, not only page-organized ones */   PageXLogRecPtr pd_lsn;  /* LSN: next byte after last byte of xlog           * record for last change to this page */   uint16  pd_checksum; /* checksum */   uint16  pd_flags;  /* flag bits, see below */   LocationIndex pd_lower;  /* offset to start of free space */   LocationIndex pd_upper;  /* offset to end of free space */   LocationIndex pd_special; /* offset to start of special space */   uint16  pd_pagesize_version;   TransactionId pd_prune_xid; /* oldest prunable XID, or zero if none */   ItemIdData pd_linp[1];  /* beginning of line pointer array */  } PageHeaderData;
        pg_lsn:记录最后一次对page修改的xlog记录id。
        pg_checksum:页面的校验和,主要是通过函数pg_checksum_block函数生成的,0也是有效地,参数为PageHeaderData和BLCKSZ(page's size)。当校验和验证失败,即认为当前页面无效。
        pg_flags:page的flags,具体值为,可以叠加:
#define PD_HAS_FREE_LINES 0x0001  /* are there any unused line pointers? */  #define PD_PAGE_FULL  0x0002  /* not enough free space for new             * tuple? */  #define PD_ALL_VISIBLE  0x0004  /* all tuples on page are visible to             * everyone */    #define PD_VALID_FLAG_BITS 0x0007  /* OR of all valid pd_flags bits */
        pg_lower和pg_upper:最后一个项指针的位置和最新的tuple位置。主要进行查找空闲位置,进行插入工作。
        pg_special:page预留的位置,可以存储索引等信息。
        pg_pagesize_version:page大小以及当前版本。page大小可以通过configure进行设置。version的意思是
/*   * Page layout version number 0 is for pre-7.3 Postgres releases.   * Releases 7.3 and 7.4 use 1, denoting a new HeapTupleHeader layout.   * Release 8.0 uses 2; it changed the HeapTupleHeader layout again.   * Release 8.1 uses 3; it redefined HeapTupleHeader infomask bits.   * Release 8.3 uses 4; it changed the HeapTupleHeader layout again, and   *  added the pd_flags field (by stealing some bits from pd_tli),   *  as well as adding the pd_prune_xid field (which enlarges the header).   *   * As of Release 9.3, the checksum version must also be considered when   * handling pages.   */
          pg_prune_xid:一般是最后一次删除或者更新的xid。
</span>

        pg_linp:项指针。
        c.ItemIddata

postgres=# select lp,lp_off,lp_flags,lp_len from heap_page_items(get_raw_page('mvcc', 'main', 0));   lp | lp_off | lp_flags | lp_len   ----+--------+----------+--------    1 |   8160 |        1 |     28    2 |   8128 |        1 |     28  (2 rows)
        这是表mvcc的项指针的信息,一样通过结合源码进行介绍:
typedef struct ItemIdData  {   unsigned lp_off:15,  /* offset to tuple (from start of page) */      lp_flags:2,  /* state of item pointer, see below */      lp_len:15;  /* byte length of tuple */  } ItemIdData;
        lp:这是插件自己定义的列,在源码中其实没有,这个是项指针的顺序。
        lp_off:tuple在page中的位置。
        lp_flags:tuple的flags,具体为
#define LP_UNUSED  0  /* unused (should always have lp_len=0) */  #define LP_NORMAL  1  /* used (should always have lp_len>0) */  #define LP_REDIRECT  2  /* HOT redirect (should have lp_len=0) */  #define LP_DEAD   3  /* dead, may or may not have storage */
        lp_len: HeapTupleHeaderData 的长度+Oid的长度(8,因为要数据对齐,所以在这里会比原来预计的多4)。

        d.HeapTupleHeaderData

postgres=# select * from heap_page_items(get_raw_page('mvcc', 'main', 0));   lp | lp_off | lp_flags | lp_len | t_xmin | t_xmax | t_field3 | t_ctid | t_infom  ask2 | t_infomask | t_hoff | t_bits | t_oid   ----+--------+----------+--------+--------+--------+----------+--------+--------  -----+------------+--------+--------+-------    1 |   8160 |        1 |     28 |   1831 |      0 |        0 | (0,1)  |             1 |       2048 |     24 |        |          2 |   8128 |        1 |     28 |   1831 |      0 |        0 | (0,2)  |             1 |       2048 |     24 |        |        (2 rows)
         同样结合源码进行介绍:
typedef struct HeapTupleFields  {   TransactionId t_xmin;  /* inserting xact ID */   TransactionId t_xmax;  /* deleting or locking xact ID */     union   {    CommandId t_cid;  /* inserting or deleting command ID, or both */    TransactionId t_xvac; /* old-style VACUUM FULL xact ID */   }   t_field3;  } HeapTupleFields;    typedef struct DatumTupleFields  {   int32  datum_len_;  /* varlena header (do not touch directly!) */       int32  datum_typmod; /* -1, or identifier of a record type */       Oid   datum_typeid; /* composite type OID, or RECORDOID */       /*   * Note: field ordering is chosen with thought that Oid might someday   * widen to 64 bits.   */  } DatumTupleFields;    struct HeapTupleHeaderData  {   union   {    HeapTupleFields t_heap;    DatumTupleFields t_datum;   }   t_choice;     ItemPointerData t_ctid;  /* current TID of this or newer tuple */     /* Fields below here must match MinimalTupleData! */     uint16  t_infomask2; /* number of attributes + various flags */     uint16  t_infomask;  /* various flag bits, see below */     uint8  t_hoff;   /* sizeof header incl. bitmap, padding */     /* ^ - 23 bytes - ^ */     bits8  t_bits[1];  /* bitmap of NULLs -- VARIABLE LENGTH */     /* MORE DATA FOLLOWS AT END OF STRUCT */  };
        xmin和xmax是插入、删除和更新时的事务ID,插入时会在xmin内写入当前事务ID,当删除时就会在xmax写入当前事务ID。更新是进行删除后再插入。
        t_cid:这个是指一个事务内的命令ID,每个事务都是从0开始。
        t_ctid:这个是指物理ID,结构如下:
typedef struct ItemPointerData  {   BlockIdData ip_blkid;   OffsetNumber ip_posid;  }    typedef struct BlockIdData  {   uint16  bi_hi;   uint16  bi_lo;  } BlockIdData;
        存储的为bi_hi(文件号) << 16 | bi_lo(page号),来获取磁盘顺序,ip_posid是在page的中序号。以此来准确定位数据。
        t_infomask2:表字段的个数以及一些flags,flags如下:
#define HEAP_NATTS_MASK   0x07FF /* 11 bits for number of attributes */  /* bits 0x1800 are available */  #define HEAP_KEYS_UPDATED  0x2000 /* tuple was updated and key cols             * modified, or tuple deleted */  #define HEAP_HOT_UPDATED  0x4000 /* tuple was HOT-updated */  #define HEAP_ONLY_TUPLE   0x8000 /* this is heap-only tuple */    #define HEAP2_XACT_MASK   0xE000 /* visibility-related bits */
         t_infomask:tuple的flags,如下:
#define HEAP_HASNULL   0x0001 /* has null attribute(s) */  #define HEAP_HASVARWIDTH  0x0002 /* has variable-width attribute(s) */  #define HEAP_HASEXTERNAL  0x0004 /* has external stored attribute(s) */  #define HEAP_HASOID    0x0008 /* has an object-id field */  #define HEAP_XMAX_KEYSHR_LOCK 0x0010 /* xmax is a key-shared locker */  #define HEAP_COMBOCID   0x0020 /* t_cid is a combo cid */  #define HEAP_XMAX_EXCL_LOCK  0x0040 /* xmax is exclusive locker */  #define HEAP_XMAX_LOCK_ONLY  0x0080 /* xmax, if valid, is only a locker */     /* xmax is a shared locker */  #define HEAP_XMAX_SHR_LOCK (HEAP_XMAX_EXCL_LOCK | HEAP_XMAX_KEYSHR_LOCK)    #define HEAP_LOCK_MASK (HEAP_XMAX_SHR_LOCK | HEAP_XMAX_EXCL_LOCK | \         HEAP_XMAX_KEYSHR_LOCK)  #define HEAP_XMIN_COMMITTED  0x0100 /* t_xmin committed */  #define HEAP_XMIN_INVALID  0x0200 /* t_xmin invalid/aborted */  #define HEAP_XMIN_FROZEN  (HEAP_XMIN_COMMITTED|HEAP_XMIN_INVALID)  #define HEAP_XMAX_COMMITTED  0x0400 /* t_xmax committed */  #define HEAP_XMAX_INVALID  0x0800 /* t_xmax invalid/aborted */  #define HEAP_XMAX_IS_MULTI  0x1000 /* t_xmax is a MultiXactId */  #define HEAP_UPDATED   0x2000 /* this is UPDATEd version of row */  #define HEAP_MOVED_OFF   0x4000 /* moved to another place by pre-9.0
        t_hoff: HeapTupleHeaderData长度,如果有Oid会增加4,但由于受到对齐的影响,会增加8。
        t_bits:具体数据,可以参照 PostgreSQL的基础数据类型分析记录

来自: http://my.oschina.net/Suregogo/blog/595335

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