深入理解MySQL 5.7 GTID系列(三):GTID的生成时
摘要: 一、GTID生成类型这里首先使用源码的解释给出三种类型: AUTOMATIC_GROUP GTID_GROUP ANONYMOUS_GROUP 其中AUTOMATIC_GROUP通常用于主库开启GTID的情况,GTID_GROUP通常用于备库和使用了GTID_NEXT的情况下。
一、GTID生成类型
这里首先使用源码的解释给出三种类型:
AUTOMATIC_GROUP
GTID_GROUP
ANONYMOUS_GROUP
其中AUTOMATIC_GROUP通常用于主库开启GTID的情况,GTID_GROUP通常用于备库和使用了GTID_NEXT的情况下。
源码中有详细解释如下:
/**
Specifies that the GTID has not been generated yet; it will be
generated on commit. It will depend on the GTID_MODE: if
GTID_MODE<=OFF_PERMISSIVE, then the transaction will be anonymous;
if GTID_MODE>=ON_PERMISSIVE, then the transaction will be assigned
a new GTID.
This is the default value: thd->variables.gtid_next has this state
when GTID_NEXT="AUTOMATIC".
It is important that AUTOMATIC_GROUP==0 so that the default value
for thd->variables->gtid_next.type is AUTOMATIC_GROUP.
*/AUTOMATIC_GROUP=0,/**
Specifies that the transaction has been assigned a GTID (UUID:NUMBER).
thd->variables.gtid_next has this state when GTID_NEXT="UUID:NUMBER".
This is the state of GTID-transactions replicated to the slave.
*/GTID_GROUP,/**
Specifies that the transaction is anonymous, i.e., it does not
have a GTID and will never be assigned one.
thd->variables.gtid_next has this state when GTID_NEXT="ANONYMOUS".
This is the state of any transaction generated on a pre-GTID
server, or on a server with GTID_MODE==OFF.
*/ANONYMOUS_GROUP
二、GTID和LAST_COMMT/SEQUNCE_NUMBER的生成时机
GTID其实是在COMMIT的时候调用MySQL_BIN_LOG::ORDERED_COMMIT执行到FLUSH阶段产生GTID EVENT的时候才生成,生成后会将这个GTID加入到GTID_STATE的OWNED_GTIDS中,实际上这个过程不仅要生成GTID还会生成SEQUENCE_NUMBER和LAST_COMMIT并且会构造GTID_EVENT写入到BINLOG CACHE,最后将BINLOG CACHE写入到BINLOG FILE(注意这里还没有调用FSYNC真正落盘),下面是BINLOG_CACHE_DATA::FLUSH函数的片段:
if(!error)if((error= mysql_bin_log.write_gtid(thd,this, &writer)))//生成Gtid和Last_commt/sequnce_number构造好Gtid event并且写入到到binlog cache中thd->commit_error= THD::CE_FLUSH_ERROR;if(!error) error= mysql_bin_log.write_cache(thd,this, &writer);//将binlog cache写入到文件
下面是MySQL_BIN_LOG.WRITE_GTID中生成GTID和LAST_COMMT/SEQUNCE_NUMBER的代码片段:
if(thd->variables.gtid_next.type == AUTOMATIC_GROUP)//如果过是非指定的Gtid则需要自动生成调用generate_automatic_gtid生成{if(gtid_state->generate_automatic_gtid(thd, thd->get_transaction()->get_rpl_transaction_ctx()->get_sidno(), thd->get_transaction()->get_rpl_transaction_ctx()->get_gno()) != RETURN_STATUS_OK) DBUG_RETURN(true); }.....//下面生成sequence_number和last_committedint64 relative_sequence_number= trn_ctx->sequence_number - clock.get_offset(); int64 relative_last_committed= trn_ctx->last_committed <= clock.get_offset() ? SEQ_UNINIT : trn_ctx->last_committed - clock.get_offset();
其调用栈帧如下:
#0Gtid_state::get_automatic_gno (this=0x2ff8bb0, sidno=1) at /root/mysql5.7.14/percona-server-5.7.14-7/sql/rpl_gtid_state.cc:564#10x0000000001803248inGtid_state::generate_automatic_gtid (this=0x2ff8bb0, thd=0x7fff2c000b70, specified_sidno=0, specified_gno=0) at /root/mysql5.7.14/percona-server-5.7.14-7/sql/rpl_gtid_state.cc:628#20x0000000001845703inMYSQL_BIN_LOG::write_gtid (this=0x2dffc80, thd=0x7fff2c000b70, cache_data=0x7fff2c021178, writer=0x7ffff0358810) at /root/mysql5.7.14/percona-server-5.7.14-7/sql/binlog.cc:1167#30x0000000001846307inbinlog_cache_data::flush (this=0x7fff2c021178, thd=0x7fff2c000b70, bytes_written=0x7ffff03588b8, wrote_xid=0x7ffff0358917) at /root/mysql5.7.14/percona-server-5.7.14-7/sql/binlog.cc:1454#40x0000000001860e57inbinlog_cache_mngr::flush (this=0x7fff2c020ff0, thd=0x7fff2c000b70, bytes_written=0x7ffff0358918, wrote_xid=0x7ffff0358917) at /root/mysql5.7.14/percona-server-5.7.14-7/sql/binlog.cc:768#50x0000000001856d46inMYSQL_BIN_LOG::flush_thread_caches (this=0x2dffc80, thd=0x7fff2c000b70) at /root/mysql5.7.14/percona-server-5.7.14-7/sql/binlog.cc:8470#60x0000000001856f77inMYSQL_BIN_LOG::process_flush_stage_queue (this=0x2dffc80, total_bytes_var=0x7ffff0358a88, rotate_var=0x7ffff0358a87, out_queue_var=0x7ffff0358a78) at /root/mysql5.7.14/percona-server-5.7.14-7/sql/binlog.cc:8532#70x0000000001858593inMYSQL_BIN_LOG::ordered_commit (this=0x2dffc80, thd=0x7fff2c000b70, all=false, skip_commit=false)
接下来我们就需要具体研究下一个GTID是依靠什么逻辑生成的。我们需要查看函数GTID_STATE::GENERATE_AUTOMATIC_GTID和GTID_STATE::GET_AUTOMATIC_GNO逻辑,他们用于生成一个GTID。
三、GTID_STATE::GENERATE_AUTOMATIC_GTID逻辑
// If GTID_MODE = ON_PERMISSIVE or ON, generate a new GTIDif(get_gtid_mode(GTID_MODE_LOCK_SID) >= GTID_MODE_ON_PERMISSIVE)//如果GTID_MODE是ON_PERMISSIVE和ON则生成GTID{ Gtid automatic_gtid= { specified_sidno, specified_gno };if(automatic_gtid.sidno ==0)//如果是备库则sidno>0,如果是主库sidno==0,因为主库的Gtid这个时候才生成,但是备库则是使用GTID_GROUP指定生成automatic_gtid.sidno= get_server_sidno();//此处返回本server的sidnolock_sidno(automatic_gtid.sidno);//此处对并发生成GNO的多个线程进行控制if(automatic_gtid.gno ==0)//如果是备库则gno>0,如果是主库gno == 0,因为主库的Gtid这个时候才生成,但是备库则是使用GTID_GROUP指定生成automatic_gtid.gno= get_automatic_gno(automatic_gtid.sidno);//此处返回最后指定sidno的end gnoif(automatic_gtid.gno !=-1) acquire_ownership(thd, automatic_gtid);//此处将这个gtid 及上面的SIDNO:gno加入到owned_gtids中 并且赋予给线程 经过本步骤 可以显示elseret= RETURN_STATUS_REPORTED_ERROR; unlock_sidno(automatic_gtid.sidno);//分配完成其他线程可以分配}else//如果是OFF_PERMISSIVE或者OFF状态如何处理 这里不做讨论了{// If GTID_MODE = OFF or OFF_PERMISSIVE, just mark this thread as// using an anonymous transaction.thd->owned_gtid.sidno= THD::OWNED_SIDNO_ANONYMOUS; thd->owned_gtid.gno=0; acquire_anonymous_ownership(); thd->owned_gtid.dbug_print(NULL,"set owned_gtid (anonymous) in generate_automatic_gtid"); } sid_lock->unlock();//释放读写锁接下来看看GNO的生成逻辑GTID_STATE::GET_AUTOMATIC_GNO。四、GTID_STATE::GENERATE_AUTOMATIC_GTID逻辑while(true) {constGtid_set::Interval *iv= ivit.get();//定义Interval指针指向 这个链表指针开头,如果在进行下次循环会获得NULLrpl_gno next_interval_start= iv != NULL ? iv->start : MAX_GNO;//正常情况下不会为NULL因此 next_interval_start 等于第一个interval的start,当然如果初始化会为NULL,//如果Interval->next =NULL 则标示没有区间了。while(next_candidate.gno < next_interval_start && DBUG_EVALUATE_IF("simulate_gno_exhausted",false,true))//这里next_candidate.gno正常不会小于next_interval_start ,如果Interval->next =NULL或者初始化//next_interval_start会被制为MAX_GNO那么条件成立 //DBUG_RETURN(next_candidate.gno);返回了这个gno 则GTID生成{if(owned_gtids.get_owner(next_candidate) ==0)//如果本GTID已经被其他线程占用则next_candidate.gno++;返回这个gno。DBUG_RETURN(next_candidate.gno); next_candidate.gno++; }if(iv == NULL || DBUG_EVALUATE_IF("simulate_gno_exhausted",true,false)) { my_error(ER_GNO_EXHAUSTED, MYF(0)); DBUG_RETURN(-1); } next_candidate.gno= iv->end;//iv->end 则指向了本区间最大的值+1ivit.next(); }
五、本节小结
学习完本节至少能够学习到:
1、GTID在主库什么时候时候生成。
2、LAST_COMMIT/SEQUENCE_NUMBER什么时候生成。
3、GTID的生成逻辑是怎么样的。
原文发布时间为:2018-01-13
本文作者:高鹏(重庆八怪)
本文来自云栖社区合作伙伴“老叶茶馆”,了解相关信息可以关注“老叶茶馆”微信公众号
如果您发现本社区中有涉嫌抄袭的内容,欢迎发送邮件至:yqgroup@service.aliyun.com 进行举报,并提供相关证据,一经查实,本社区将立刻删除涉嫌侵权内容