PostgreSQL 无缝自增ID的实现 - by advisory lock -- 德哥 原作者:digoal/德哥 创作时间:2016-10-25 19:02:18+08 |
doudou586 发布于2016-10-25 19:02:18 评论: 4 浏览: 10142 顶: 919 踩: 1069 |
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一般来说,数据库都会有序列的功能,例如PostgreSQL就支持序列。
序列是指一直增长的值,但是它有一个不好的地方,就是用掉后就不会再有了,因此对于使用者来说,可能会拿到空洞的值。
例如
postgres=# create table seq_test(id serial, info text); CREATE TABLE postgres=# \d+ seq_test Table "public.seq_test" Column | Type | Modifiers | Storage | Stats target | Description --------+---------+-------------------------------------------------------+----------+--------------+------------- id | integer | not null default nextval('seq_test_id_seq'::regclass) | plain | | info | text | | extended | |
序列的值只要被获取后,就消耗掉了,一直往前。
所以如果中间出现过回滚,就会出现空洞。
postgres=# insert into seq_test (info) values ('test'); INSERT 0 1 postgres=# begin; BEGIN postgres=# insert into seq_test (info) values ('test'); INSERT 0 1 postgres=# rollback; ROLLBACK postgres=# insert into seq_test (info) values ('test'); INSERT 0 1 postgres=# select * from seq_test; id | info ----+------ 1 | test 3 | test (2 rows)
那么有没有一种方法可以得到完全无缝的自增序列值呢?
本文将给大家提供一种方法。
PostgreSQL提供了一个很棒的特性,叫做advisory lock,使用这个锁,可以提供并发的生成能力。
这个锁分为会话锁和事务锁,详见: https://www.postgresql.org/docs/9.6/static/functions-admin.html#FUNCTIONS-ADVISORY-LOCKS
Name | Return Type | Description |
---|---|---|
pg_advisory_lock(key bigint) | void | Obtain exclusive session level advisory lock |
pg_advisory_lock(key1 int, key2 int) | void | Obtain exclusive session level advisory lock |
pg_advisory_lock_shared(key bigint) | void | Obtain shared session level advisory lock |
pg_advisory_lock_shared(key1 int, key2 int) | void | Obtain shared session level advisory lock |
pg_advisory_unlock(key bigint) | boolean | Release an exclusive session level advisory lock |
pg_advisory_unlock(key1 int, key2 int) | boolean | Release an exclusive session level advisory lock |
pg_advisory_unlock_all() | void | Release all session level advisory locks held by the current session |
pg_advisory_unlock_shared(key bigint) | boolean | Release a shared session level advisory lock |
pg_advisory_unlock_shared(key1 int, key2 int) | boolean | Release a shared session level advisory lock |
pg_advisory_xact_lock(key bigint) | void | Obtain exclusive transaction level advisory lock |
pg_advisory_xact_lock(key1 int, key2 int) | void | Obtain exclusive transaction level advisory lock |
pg_advisory_xact_lock_shared(key bigint) | void | Obtain shared transaction level advisory lock |
pg_advisory_xact_lock_shared(key1 int, key2 int) | void | Obtain shared transaction level advisory lock |
pg_try_advisory_lock(key bigint) | boolean | Obtain exclusive session level advisory lock if available |
pg_try_advisory_lock(key1 int, key2 int) | boolean | Obtain exclusive session level advisory lock if available |
pg_try_advisory_lock_shared(key bigint) | boolean | Obtain shared session level advisory lock if available |
pg_try_advisory_lock_shared(key1 int, key2 int) | boolean | Obtain shared session level advisory lock if available |
pg_try_advisory_xact_lock(key bigint) | boolean | Obtain exclusive transaction level advisory lock if available |
pg_try_advisory_xact_lock(key1 int, key2 int) | boolean | Obtain exclusive transaction level advisory lock if available |
pg_try_advisory_xact_lock_shared(key bigint) | boolean | Obtain shared transaction level advisory lock if available |
pg_try_advisory_xact_lock_shared(key1 int, key2 int) | boolean | Obtain shared transaction level advisory lock if available |
将逻辑放到函数中,如下,需要保证ID字段的唯一,以及它的顺序绝对保证,插入数据后,返回ID值给客户端。
postgres=# create table uniq_test(id int primary key, info text); CREATE TABLE create or replace function f_uniq(i_info text) returns int as $$ declare newid int; i int := 0; res int; begin loop if i>0 then perform pg_sleep(0.2*random()); else i := i+1; end if; -- 获取已有的最大ID+1 (即将插入的ID) select max(id)+1 into newid from uniq_test; if newid is not null then -- 获取AD LOCK if pg_try_advisory_xact_lock(newid) then -- 插入 insert into uniq_test (id,info) values (newid,i_info); -- 返回此次获取到的UID return newid; else -- 没有获取到AD LOCK则继续循环 continue; end if; else -- 表示这是第一条记录,获取AD=1 的LOCK if pg_try_advisory_xact_lock(1) then insert into uniq_test (id, info) values (1, i_info); return 1; else continue; end if; end if; end loop; -- 如果因为瞬态导致PK冲突了,继续调用 exception when others then select f_uniq(i_info) into res; return res; end; $$ language plpgsql strict;
并行压测
$ vi test.sql select f_uniq('test'); $ pgbench -M prepared -n -r -P 1 -f ./test.sql -c 164 -j 164 -T 10 progress: 1.0 s, 9526.0 tps, lat 13.759 ms stddev 69.983 progress: 2.0 s, 12305.9 tps, lat 13.554 ms stddev 67.042 progress: 3.0 s, 12378.7 tps, lat 13.206 ms stddev 65.303 progress: 4.0 s, 12277.0 tps, lat 12.969 ms stddev 68.373 progress: 5.0 s, 12332.3 tps, lat 13.535 ms stddev 71.023 progress: 6.0 s, 11852.9 tps, lat 13.715 ms stddev 70.337 progress: 7.0 s, 12168.1 tps, lat 13.582 ms stddev 71.053 progress: 8.0 s, 12174.8 tps, lat 13.390 ms stddev 69.684 progress: 9.0 s, 12145.0 tps, lat 13.393 ms stddev 70.059 progress: 10.0 s, 12240.7 tps, lat 13.642 ms stddev 68.665 transaction type: ./test.sql scaling factor: 1 query mode: prepared number of clients: 164 number of threads: 164 duration: 10 s number of transactions actually processed: 119565 latency average = 13.791 ms latency stddev = 70.055 ms tps = 11729.522019 (including connections establishing) tps = 11737.830312 (excluding connections establishing) script statistics: - statement latencies in milliseconds: 13.791 select f_uniq('test');
性能还不错。
postgres=# select count(*),max(id) from uniq_test ; count | max --------+-------- 119565 | 119565 (1 row)
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