xmax
The identity (transaction ID) of the deleting transaction, or zero for an undeleted row version. It is possible for this column to be nonzero in a visible row version. That usually indicates that the deleting transaction hasn't committed yet, or that an attempted deletion was rolled back.
http://www.postgresql.org/docs/9.1/static/ddl-system-columns.html
作一个实验:
我数据库关闭前,最后一条transaction的id是 1874。
我开一个终端A,此时终端A的当前transactionId为 1875。
[pgsql@localhost bin]$ ./psql
psql (9.1.)
Type "help" for help. pgsql=# begin;
BEGIN pgsql=# select xmin,xmax,* from tab01;
xmin | xmax | id | cd
------+------+----+----
| | |
| | |
| | |
| | |
| | |
| | |
| | |
( rows) pgsql=#
我再开一个终端B,此时,终端B的transactionId为:1876。
[pgsql@localhost bin]$ ./psql
psql (9.1.)
Type "help" for help. pgsql=# begin;
BEGIN
pgsql=# select xmin,xmax,* from tab01;
xmin | xmax | id | cd
------+------+----+----
| | |
| | |
| | |
| | |
| | |
| | |
| | |
( rows) pgsql=#
回到终端A,执行 delete 操作:
pgsql=# delete from tab01 where id=;
DELETE
pgsql=#
此时,在终端A中,已经看不到删除后的数据:
pgsql=# select xmin,xmax,* from tab01;
xmin | xmax | id | cd
------+------+----+----
| | |
| | |
| | |
| | |
| | |
| | |
( rows) pgsql=#
此时,由于终端A尚未提交,所以,可以在终端B中看到如下的情形:
pgsql=# select xmin,xmax,* from tab01;
xmin | xmax | id | cd
------+------+----+----
| | |
| | |
| | |
| | |
| | |
| | |
| | |
( rows) pgsql=#
也就是说,id为9的那条记录,其xmax为1875,表明其为 transactionid为 1875的事务所删除。
回到终端A,进行提交:
pgsql=# commit;
COMMIT
pgsql=# select xmin,xmax,* from tab01;
xmin | xmax | id | cd
------+------+----+----
| | |
| | |
| | |
| | |
| | |
| | |
( rows) pgsql=#
再回到终端B,查看:
pgsql=# select xmin,xmax,* from tab01;
xmin | xmax | id | cd
------+------+----+----
| | |
| | |
| | |
| | |
| | |
| | |
( rows) pgsql=#
让我来再进一步,看一看:
重新开两个终端:
终端A和终端B。
在终端A中:
[pgsql@localhost bin]$ ./psql
psql (9.1.)
Type "help" for help. pgsql=# select xmin,xmax,cmin,cmax,* from tab01;
xmin | xmax | cmin | cmax | id | cd
------+------+------+------+----+----
| | | | |
| | | | |
( rows) pgsql=# \q
可以看到两条由不同的事务提交所形成的记录。
然后再次使用psql: 经过update 后,自己所看到的是 xmin的变化,这时尚未提交,别的终端看到就不一样了。
终端A:
[pgsql@localhost bin]$ ./psql
psql (9.1.)
Type "help" for help. pgsql=# begin;
BEGIN
pgsql=# update tab01 set id= where cd='';
UPDATE
pgsql=# select xmin,xmax,cmin,cmax,* from tab01;
xmin | xmax | cmin | cmax | id | cd
------+------+------+------+----+----
| | | | |
| | | | |
( rows) pgsql=#
此时,进入终端B:
[pgsql@localhost bin]$ ./psql
psql (9.1.)
Type "help" for help. pgsql=# select xmin,xmax,cmin,cmax,* from tab01;
xmin | xmax | cmin | cmax | id | cd
------+------+------+------+----+----
| | | | |
| | | | |
( rows) pgsql=#
我推测,update的时候,自身事务所看到的是内存中的影像。同时它也已经提交到了物理文件上。而别的事务是从物理文件来读取的。
在A终端提交以后:
pgsql=# commit;
COMMIT
pgsql=#
B终端所看到的:
pgsql=# select xmin,xmax,cmin,cmax,* from tab01;
xmin | xmax | cmin | cmax | id | cd
------+------+------+------+----+----
| | | | |
| | | | |
( rows) pgsql=#
继续从代码上进行分析:
/*
* heap_update - replace a tuple
*
* NB: do not call this directly unless you are prepared to deal with
* concurrent-update conditions. Use simple_heap_update instead.
*
* relation - table to be modified (caller must hold suitable lock)
* otid - TID of old tuple to be replaced
* newtup - newly constructed tuple data to store
* ctid - output parameter, used only for failure case (see below)
* update_xmax - output parameter, used only for failure case (see below)
* cid - update command ID (used for visibility test, and stored into
* cmax/cmin if successful)
* crosscheck - if not InvalidSnapshot, also check old tuple against this
* wait - true if should wait for any conflicting update to commit/abort
*
* Normal, successful return value is HeapTupleMayBeUpdated, which
* actually means we *did* update it. Failure return codes are
* HeapTupleSelfUpdated, HeapTupleUpdated, or HeapTupleBeingUpdated
* (the last only possible if wait == false).
*
* On success, the header fields of *newtup are updated to match the new
* stored tuple; in particular, newtup->t_self is set to the TID where the
* new tuple was inserted, and its HEAP_ONLY_TUPLE flag is set iff a HOT
* update was done. However, any TOAST changes in the new tuple's
* data are not reflected into *newtup.
*
* In the failure cases, the routine returns the tuple's t_ctid and t_xmax.
* If t_ctid is the same as otid, the tuple was deleted; if different, the
* tuple was updated, and t_ctid is the location of the replacement tuple.
* (t_xmax is needed to verify that the replacement tuple matches.)
*/
HTSU_Result
heap_update(Relation relation, ItemPointer otid, HeapTuple newtup,
ItemPointer ctid, TransactionId *update_xmax,
CommandId cid, Snapshot crosscheck, bool wait)
{
HTSU_Result result;
TransactionId xid = GetCurrentTransactionId();
Bitmapset *hot_attrs;
ItemId lp;
HeapTupleData oldtup;
HeapTuple heaptup;
Page page;
Buffer buffer,
newbuf;
bool need_toast,
already_marked;
Size newtupsize,
pagefree;
bool have_tuple_lock = false;
bool iscombo;
bool use_hot_update = false;
bool all_visible_cleared = false;
bool all_visible_cleared_new = false; ... ////////////////First Phase marked by gaojian newtup->t_data->t_infomask &= ~(HEAP_XACT_MASK);
newtup->t_data->t_infomask2 &= ~(HEAP2_XACT_MASK);
newtup->t_data->t_infomask |= (HEAP_XMAX_INVALID | HEAP_UPDATED);
HeapTupleHeaderSetXmin(newtup->t_data, xid);
HeapTupleHeaderSetCmin(newtup->t_data, cid);
HeapTupleHeaderSetXmax(newtup->t_data, ); /* for cleanliness */
newtup->t_tableOid = RelationGetRelid(relation); ... if (!already_marked)
{
/* Clear obsolete visibility flags ... */
oldtup.t_data->t_infomask &= ~(HEAP_XMAX_COMMITTED |
HEAP_XMAX_INVALID |
HEAP_XMAX_IS_MULTI |
HEAP_IS_LOCKED |
HEAP_MOVED);
/* ... and store info about transaction updating this tuple */ ///HeapTupleHeaderSetXmax(oldtup.t_data, xid);
/////>>>>>added by gaojian for testing.
////xid = (TransactionId)8888; fprintf(stderr,"x-----1,xid is :%d \n",(int)xid); HeapTupleHeaderSetXmax(oldtup.t_data, xid);
HeapTupleHeaderSetCmax(oldtup.t_data, cid, iscombo); sleep();
} ... return HeapTupleMayBeUpdated;
}
可以看到,第一段的 :
newtup->t_data->t_infomask &= ~(HEAP_XACT_MASK);
newtup->t_data->t_infomask2 &= ~(HEAP2_XACT_MASK);
newtup->t_data->t_infomask |= (HEAP_XMAX_INVALID | HEAP_UPDATED);
HeapTupleHeaderSetXmin(newtup->t_data, xid);
HeapTupleHeaderSetCmin(newtup->t_data, cid);
HeapTupleHeaderSetXmax(newtup->t_data, ); /* for cleanliness */
newtup->t_tableOid = RelationGetRelid(relation);
写的很明白, HeapTupleHeaderSetXmin(newtup->t_data, xid);
而第二段的 :
if (!already_marked)
{
/* Clear obsolete visibility flags ... */
oldtup.t_data->t_infomask &= ~(HEAP_XMAX_COMMITTED |
HEAP_XMAX_INVALID |
HEAP_XMAX_IS_MULTI |
HEAP_IS_LOCKED |
HEAP_MOVED);
/* ... and store info about transaction updating this tuple */ HeapTupleHeaderSetXmax(oldtup.t_data, xid);
HeapTupleHeaderSetCmax(oldtup.t_data, cid, iscombo);
}
然后,我再来验证一下,加点调试代码,这样,我执行sql时会出错:
if (!already_marked)
{
/* Clear obsolete visibility flags ... */
oldtup.t_data->t_infomask &= ~(HEAP_XMAX_COMMITTED |
HEAP_XMAX_INVALID |
HEAP_XMAX_IS_MULTI |
HEAP_IS_LOCKED |
HEAP_MOVED);
/* ... and store info about transaction updating this tuple */ ///HeapTupleHeaderSetXmax(oldtup.t_data, xid);
/////>>>>>added by gaojian for testing.
////xid = (TransactionId)8888; fprintf(stderr,"x-----1,xid is :%d \n",(int)xid); HeapTupleHeaderSetXmax(oldtup.t_data, xid);
HeapTupleHeaderSetCmax(oldtup.t_data, cid, iscombo); }
执行结果:
pgsql=# begin;
BEGIN
pgsql=# update tab01 set id= where cd = '';
ERROR: could not access status of transaction
DETAIL: Could not read from file "pg_subtrans/0000" at offset : Success.
pgsql=# \q
[pgsql@loca
再次登陆进来看看,哈,这证明我所看到的代码部分,就是实现写入xmax的部分。
总结来说,就是,在update(可能delete也是),用向oldtup写入transaction id的方式,来记录哪个transaction改动了记录。
[pgsql@localhost bin]$ ./psql
psql (9.1.)
Type "help" for help. pgsql=# select xmin,xmax,cmin,cmax, * from tab01;
xmin | xmax | cmin | cmax | id | cd
------+------+------+------+-----------+----
| | | | |
| | | | |
| | | | |
( rows) pgsql=#