标签:
repmgr_method.c, __repmgr_start_int()
初始2个elect线程.
repmgr_elect.c, __repmgr_init_election()
__repmgr_elect_thread()
__repmgr_elect_main()
lease, preferred master mode,
rep_elect.c, __repmgr_elect()
__rep_elect_init()
lockout,
if (rep->egen != egen) // then out
tiebreaker
/* Use the last commit record as the LSN in the vote
__rep_write_egen
__rep_tally // tally our own vote
__rep_cmp_vote // 把我们自己预先记录为winner
__rep_send_vote() // -send vote1, our own vote, REP_VOTE1
phase1, wait...
if (rep->sites >= rep->nvotes) { // 满足进入phase2, 不满足就退出了
rep->sites - sites heard from.
rep->nvotes - Number of votes needed.
send vote2/ 或我们自己 是winner的情况, 投自己一票
我赢了么?
rep_record.c, __rep_process_message_int()
case REP_VOTE1:
ret = __rep_vote1(env, rp, rec, eid);
break;
case REP_VOTE2:
ret = __rep_vote2(env, rec, eid);
__rep_vote1()
我们自己是master, send REP_NEWMASTER, 退出
若收到以前egen的vote, send REP_ALIVE
若收到以后egen的vote, 终止当前vote, 更新egen
* Ignore vote1‘s if we‘re in phase 2.
__rep_tally - 记录下来, 如是新的vote site, rep->sites++
__rep_cmp_vote // 比较此vote1和我们已有的winner
如果已经得到所有site的vote1, 进入phase2
- 我们是winner, claim; 否则vote2 别人
如需要(full election?, 第一次拿到site的vote1), resend our vote1 到这个site
__rep_vote2()
/*
* Record this vote. In a VOTE2, the only valid entry
* in the vote information is the election generation.
*
* There are several things which can go wrong that we
* need to account for:
* 1. If we receive a latent VOTE2 from an earlier election,
* we want to ignore it.
* 2. If we receive a VOTE2 from a site from which we never
* received a VOTE1, we want to record it, because we simply
* may be processing messages out of order or its vote1 got lost,
* but that site got all the votes it needed to send it.
* 3. If we have received a duplicate VOTE2 from this election
* from the same site we want to ignore it.
* 4. If this is from the current election and someone is
* really voting for us, then we finally get to record it.
*/
rep_tally - 若 新的site发出的 vote2, rep->votes++
#define I_HAVE_WON(rep, winner) \
((rep)->votes >= (rep)->nvotes && winner == (rep)->eid)
rep->sites - sites heard from.
rep->nvotes - Number of votes needed.
rep->votes - Number of votes for this site.
rep->nsites - Number of sites in group.
/*
* We need to check sites == nsites, not more than half
* like we do in __rep_elect and the VOTE2 code. The
* reason is that we want to process all the incoming votes
* and not short-circuit once we reach more than half. The
* real winner‘s vote may be in the last half.
*/
#define IS_PHASE1_DONE(rep) \
((rep)->sites >= (rep)->nsites && (rep)->winner != DB_EID_INVALID)
u_int32_t egen; /* Replication election generation. */
REP_NEWMASTER - 我是新的master
REP_MASTER_REQ - 谁是master?
rep_util.c, __rep_new_master() 与新master同步
/*
* Election gen file name
* The file contains an egen number for an election this client has NOT
* participated in. I.e. it is the number of a future election. We
* create it when we create the rep region, if it doesn‘t already exist
* and initialize egen to 1. If it does exist, we read it when we create
* the rep region. We write it immediately before sending our VOTE1 in
* an election. That way, if a client has ever sent a vote for any
* election, the file is already going to be updated to reflect a future
* election, should it crash.
*/
#define REP_EGENNAME "__db.rep.egen"
typedef struct {
u_int32_t egen; /* Voter‘s election generation. */
int eid; /* Voter‘s ID. */
} REP_VTALLY;
rep_elect.c, __rep_tally()
* Ignore votes from earlier elections (i.e. we‘ve heard
* from this site in this election, but its vote from an
* earlier election got delayed and we received it now).
* However, if we happened to hear from an earlier vote
* and we recorded it and we‘re now hearin
__rep_cmp_vote()
/* Make ourselves the winner to start. */
rep->winner 记录下已知的winner
__rep_elect_done()
- 清elect flag, 清rep->votes,.. rep->egen++
berkeley db replica机制 - election algorithm
标签:
原文地址:http://www.cnblogs.com/brayden/p/5280242.html