原 PostgreSQL下如何修改用户权限的介绍以及hook机制对超级用户的权限修改

要想修改PG的用户权限,那么首先要对PG权限控制做一下了解:

PG的权限控制是针对到各个对象的。大家可以看一下,所有系统表(pg_catalog下)几乎都会有aclitem[]数组类型的**acl的字段,这就是对权限的标识。

这里的标识情况如下:

rolename=xxxx -- privileges granted to a role
        =xxxx -- privileges granted to PUBLIC
 
            r -- SELECT ("read")
            w -- UPDATE ("write")
            a -- INSERT ("append")
            d -- DELETE
            D -- TRUNCATE
            x -- REFERENCES
            t -- TRIGGER
            X -- EXECUTE
            U -- USAGE
            C -- CREATE
            c -- CONNECT
            T -- TEMPORARY
      arwdDxt -- ALL PRIVILEGES (for tables, varies for other objects)
            * -- grant option for preceding privilege
 
        /yyyy -- role that granted this privilege

这里有一个非常重要的结构体:

typedef struct AclItem
{
	Oid			ai_grantee;		/* ID that this item grants privs to */
	Oid			ai_grantor;		/* grantor of privs */
	AclMode		ai_privs;		/* privilege bits */
} AclItem;

typedef uint32 AclMode;

然后注释对AclMode的解释是这样的:

/*
 * The upper 16 bits of the ai_privs field of an AclItem are the grant option
 * bits, and the lower 16 bits are the actual privileges.  We use "rights"
 * to mean the combined grant option and privilege bits fields.
 */

高16位存储的是grant option,而低16位存储的是各个权限位的授予情况,有没有对应的权限。

对低16位的解释:

低16位很简单的可以明白就是在这16bit上表示权限。通过下面的宏定义可以了解一下:

#define ACL_INSERT		(1<<0)	/* for relations */
#define ACL_SELECT		(1<<1)
#define ACL_UPDATE		(1<<2)
#define ACL_DELETE		(1<<3)
#define ACL_TRUNCATE	   (1<<4)
#define ACL_REFERENCES	(1<<5)
#define ACL_TRIGGER		(1<<6)
#define ACL_EXECUTE		(1<<7)	/* for functions */
#define ACL_USAGE		(1<<8)	/* for languages, namespaces, FDWs, and
								 * servers */
#define ACL_CREATE		(1<<9)	/* for namespaces and databases */
#define ACL_CREATE_TEMP (1<<10) /* for databases */
#define ACL_CONNECT		(1<<11) /* for databases */
#define N_ACL_RIGHTS	12		/* 1 plus the last 1<<x */
#define ACL_NO_RIGHTS	0
/* Currently, SELECT ... FOR [KEY] UPDATE/SHARE requires UPDATE privileges */
#define ACL_SELECT_FOR_UPDATE	ACL_UPDATE

低16位上便是上面对应的权限有无了。对应权限,大家看一下名字就能明白了。

高16位存储的是各权限对应的授出或者被转授选项。其实就是上一次的受权情况,对高16位的操作我只在grant和revoke发现,还有就是对权限进行读入,对*还有处理。这两处的用法就是将上一次的受权低16位存储到高16位。

#define ACL_INSERT_CHR			'a'		/* formerly known as "append" */
#define ACL_SELECT_CHR			'r'		/* formerly known as "read" */
#define ACL_UPDATE_CHR			'w'		/* formerly known as "write" */
#define ACL_DELETE_CHR			'd'
#define ACL_TRUNCATE_CHR		'D'		/* super-delete, as it were */
#define ACL_REFERENCES_CHR		'x'
#define ACL_TRIGGER_CHR			't'
#define ACL_EXECUTE_CHR			'X'
#define ACL_USAGE_CHR			'U'
#define ACL_CREATE_CHR			'C'
#define ACL_CREATE_TEMP_CHR		'T'
#define ACL_CONNECT_CHR			'c'

而以宏定义定义的是相应权限所对应的字符。这就是我们经常能看到的**acl字段所存储的信息了。

现在通过一个给数据库赋权的例子来解释一下**acl字段存储的信息:

create user ff createdb;
\c test ff
create database tain;
select * from pg_database where datname = 'tain';
  datname  | datdba | encoding | datcollate  |  datctype   | datistemplate | datallowconn | datconnlimit | datlastsysoid | da
tfrozenxid | datminmxid | dattablespace |                         datacl                         
-----------+--------+----------+-------------+-------------+---------------+--------------+--------------+---------------+---
-----------+------------+---------------+--------------------------------------------------------
 tain      |  16438 |        6 | en_US.UTF-8 | en_US.UTF-8 | f             | t            |           -1 |         12917 |   
      1674 |          1 |          1663 | 
(5 rows)

grant all on database tain to ss; select * from pg_database where datname = 'tain';  datname  | datdba | encoding | datcollate  |  datctype   | datistemplate | datallowconn | datconnlimit | datlastsysoid | da
tfrozenxid | datminmxid | dattablespace |                         datacl                         
-----------+--------+----------+-------------+-------------+---------------+--------------+--------------+---------------+---
-----------+------------+---------------+--------------------------------------------------------
 tain      |  16438 |        6 | en_US.UTF-8 | en_US.UTF-8 | f             | t            |           -1 |         12917 |   
      1674 |          1 |          1663 | {=Tc/ff,ff=CTc/ff,ss=CTc/ff}
(5 rows)

\c postgres postgres
alter database tain owner to postgres;
select * from pg_database where datname = 'tain';
  datname  | datdba | encoding | datcollate  |  datctype   | datistemplate | datallowconn | datconnlimit | datlastsysoid | da
tfrozenxid | datminmxid | dattablespace |                         datacl                         
-----------+--------+----------+-------------+-------------+---------------+--------------+--------------+---------------+---
-----------+------------+---------------+--------------------------------------------------------
 tain      |     10 |        6 | en_US.UTF-8 | en_US.UTF-8 | f             | t            |           -1 |         12917 |   
      1674 |          1 |          1663 | {=Tc/postgres,postgres=CTc/postgres,ss=CTc/postgres}
(5 rows)

上面有这么三种情况:

1、创建数据库后,默认为空。 2、为用户赋权后,将默认和赋权的情况都写在了datacl字段内。     =前的为受权的用户,/后的为数据库所属的用户,/前的为受权用户对其拥有的权限。 3、改变数据库属主后的权限情况。

说完权限情况,下面介绍一下用户情况,

PG的用户可以分为两类:1超级用户,2普通用户。

为什么这会分出这两类呢? 1、普通用户的权限控制可以直接用命令直接进行修改权限:

postgres=# \help grant
Command:     GRANT
Description: define access privileges
Syntax:
GRANT { { SELECT | INSERT | UPDATE | DELETE | TRUNCATE | REFERENCES | TRIGGER }
    [, ...] | ALL [ PRIVILEGES ] }
    ON { [ TABLE ] table_name [, ...]
         | ALL TABLES IN SCHEMA schema_name [, ...] }
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT { { SELECT | INSERT | UPDATE | REFERENCES } ( column_name [, ...] )
    [, ...] | ALL [ PRIVILEGES ] ( column_name [, ...] ) }
    ON [ TABLE ] table_name [, ...]
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT { { USAGE | SELECT | UPDATE }
    [, ...] | ALL [ PRIVILEGES ] }
    ON { SEQUENCE sequence_name [, ...]
         | ALL SEQUENCES IN SCHEMA schema_name [, ...] }
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT { { CREATE | CONNECT | TEMPORARY | TEMP } [, ...] | ALL [ PRIVILEGES ] }
    ON DATABASE database_name [, ...]
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT { USAGE | ALL [ PRIVILEGES ] }
    ON DOMAIN domain_name [, ...]
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT { USAGE | ALL [ PRIVILEGES ] }
    ON FOREIGN DATA WRAPPER fdw_name [, ...]
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT { USAGE | ALL [ PRIVILEGES ] }
    ON FOREIGN SERVER server_name [, ...]
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT { EXECUTE | ALL [ PRIVILEGES ] }
    ON { FUNCTION function_name ( [ [ argmode ] [ arg_name ] arg_type [, ...] ] ) [, ...]
         | ALL FUNCTIONS IN SCHEMA schema_name [, ...] }
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT { USAGE | ALL [ PRIVILEGES ] }
    ON LANGUAGE lang_name [, ...]
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT { { SELECT | UPDATE } [, ...] | ALL [ PRIVILEGES ] }
    ON LARGE OBJECT loid [, ...]
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT { { CREATE | USAGE } [, ...] | ALL [ PRIVILEGES ] }
    ON SCHEMA schema_name [, ...]
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT { CREATE | ALL [ PRIVILEGES ] }
    ON TABLESPACE tablespace_name [, ...]
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT { USAGE | ALL [ PRIVILEGES ] }
    ON TYPE type_name [, ...]
    TO { [ GROUP ] role_name | PUBLIC } [, ...] [ WITH GRANT OPTION ]

GRANT role_name [, ...] TO role_name [, ...] [ WITH ADMIN OPTION ]
\help revoke
Command:     REVOKE
Description: remove access privileges
Syntax:
REVOKE [ GRANT OPTION FOR ]
    { { SELECT | INSERT | UPDATE | DELETE | TRUNCATE | REFERENCES | TRIGGER }
    [, ...] | ALL [ PRIVILEGES ] }
    ON { [ TABLE ] table_name [, ...]
         | ALL TABLES IN SCHEMA schema_name [, ...] }
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ GRANT OPTION FOR ]
    { { SELECT | INSERT | UPDATE | REFERENCES } ( column_name [, ...] )
    [, ...] | ALL [ PRIVILEGES ] ( column_name [, ...] ) }
    ON [ TABLE ] table_name [, ...]
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ GRANT OPTION FOR ]
    { { USAGE | SELECT | UPDATE }
    [, ...] | ALL [ PRIVILEGES ] }
    ON { SEQUENCE sequence_name [, ...]
         | ALL SEQUENCES IN SCHEMA schema_name [, ...] }
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ GRANT OPTION FOR ]
    { { CREATE | CONNECT | TEMPORARY | TEMP } [, ...] | ALL [ PRIVILEGES ] }
    ON DATABASE database_name [, ...]
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ GRANT OPTION FOR ]
    { USAGE | ALL [ PRIVILEGES ] }
    ON DOMAIN domain_name [, ...]
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ GRANT OPTION FOR ]
    { USAGE | ALL [ PRIVILEGES ] }
    ON FOREIGN DATA WRAPPER fdw_name [, ...]
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ GRANT OPTION FOR ]
    { USAGE | ALL [ PRIVILEGES ] }
    ON FOREIGN SERVER server_name [, ...]
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ GRANT OPTION FOR ]
    { EXECUTE | ALL [ PRIVILEGES ] }
    ON { FUNCTION function_name ( [ [ argmode ] [ arg_name ] arg_type [, ...] ] ) [, ...]
         | ALL FUNCTIONS IN SCHEMA schema_name [, ...] }
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ GRANT OPTION FOR ]
    { USAGE | ALL [ PRIVILEGES ] }
    ON LANGUAGE lang_name [, ...]
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ GRANT OPTION FOR ]
    { { SELECT | UPDATE } [, ...] | ALL [ PRIVILEGES ] }
    ON LARGE OBJECT loid [, ...]
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ GRANT OPTION FOR ]
    { { CREATE | USAGE } [, ...] | ALL [ PRIVILEGES ] }
    ON SCHEMA schema_name [, ...]
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ GRANT OPTION FOR ]
    { CREATE | ALL [ PRIVILEGES ] }
    ON TABLESPACE tablespace_name [, ...]
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ GRANT OPTION FOR ]
    { USAGE | ALL [ PRIVILEGES ] }
    ON TYPE type_name [, ...]
    FROM { [ GROUP ] role_name | PUBLIC } [, ...]
    [ CASCADE | RESTRICT ]

REVOKE [ ADMIN OPTION FOR ]
    role_name [, ...] FROM role_name [, ...]
    [ CASCADE | RESTRICT ]

这是对普通用户权限的修改。

2、对于超级用户,权限修改在这里有没有用了。

对于超级用户来说,所有的操作只有如下的判断就可以操作了:

bool
superuser(void)
{
	return superuser_arg(GetUserId());
}

Oid
GetUserId(void)
{
	AssertState(OidIsValid(CurrentUserId));
	return CurrentUserId;
}

只要判断是超级用户即可进行操作。超级用户的权限很大,在这里提醒各位超级用户慎用。而且在PG里默认用户postgres是就是超级用户,而且不能删除。

所以你可能就需要修改超级用户的权限了,那么如何修改呢?必须通过编写代码进行对超级用户进行限制。这就用到了PostgreSQL的hook机制。

hook可以修改和中断用户的操作。

下面是常用hook列表,大家可以根据列表进行对数据库相关过程进行修改,不需要直接在PG源码下修改,仅需要加一个扩展组件即可。

Hook

初始版本

说明

check_password_hook

9.0

处理用户密码时调用的hook,可以对用户的密码进行限制,增加密码的规范。

ClientAuthentication_hook

9.1

处理连接时调用的hook,可以对连接进行管理。

ExecutorStart_hook

8.4

处理查询执行开始时调用的hook

ExecutorRun_hook

8.4

处理查询执行时调用的hook

ExecutorFinish_hook

8.4

处理查询结束时调用的hook

ExecutorEnd_hook

8.4

处理查询完成后调用的hook

ExecutorCheckPerms_hook

9.1

处理访问权限时调用的hook

ProcessUtility_hook

9.0

通用hook,可以处理很多的过程。

下面也是一些hook,不过使用的较少:

Hook

使用

初始版本

说明

explain_get_index_name_hook

8.3

在寻找索引name时调用的hook

ExplainOneQuery_hook

IndexAdvisor

8.3

fmgr_hook

sepgsql

9.1

函数调用潜的hook

get_attavgwidth_hook

8.4

get_index_stats_hook

8.4

get_relation_info_hook

plantuner

8.3

得到数据库对象信息的时候调用的hook

get_relation_stats_hook

8.4

join_search_hook

saio

8.3

needs_fmgr_hook

sepgsql

9.1

object_access_hook

sepgsql

9.1

planner_hook

planinstr

8.3

在计划开始执行前调用的hook,可以修改一些查询计划的行为

shmem_startup_hook

pg_stat_statements

8.4

在初始化共享内存是调用的hook

hook工作原理:每一个hook是由一个全局性的函数指针构成的。服务端进行运行初始化其为NULL,当数据库必须调用的时候,首先会检测是否为NULL,不是则优先调用函数,否则执行标准函数。

设置函数指针:当数据库载入共享库时,首先会将其载入到内存中,然后执行一个函数调用_PG_init。这个函数存在大多数共享库中是有效的。所以我们可以通过这个函数来加载我们自己的hook。

取消函数指针设置:当数据库需要卸载其共享库时,会调用函数 _PG_fini() 。我们可以再此进行设置函数指针为NULL,这样就取消设置了。

下面来一个实战型的:

目的:超级用户sure不能对任何表进行访问。

1、在contrib下建立目录:acl_super。

[root@localhost contrib]# mkdir acl_super;
[root@localhost contrib]#

2、建立C文件:

/*
 * acl_super.c
 * the super user sure can not have not permission to operate the 
 * ordinary table.
 */
#include "postgres.h"
#include "miscadmin.h"
#include "nodes/parsenodes.h"
#include "nodes/pg_list.h"
#include "catalog/pg_class.h"
#include "executor/executor.h"

PG_MODULE_MAGIC;

void _PG_init(void);
void _PG_fini(void);

static ExecutorCheckPerms_hook_type prev_ExecutorCheckPerms_hook = NULL;

static void myExecCheckRTPerms(List *rangeTable, bool ereport_on_violation);

/*
 * Stop the super user sure from operating the ordinary table  */

static
void myExecCheckRTPerms(List *rangeTable, bool ereport_on_violation)
{
        ListCell   *l;
        Oid        cuser = InvalidOid;
        char*      cusername = NULL;

        cuser = GetSessionUserId();
        cusername = GetUserNameFromId(cuser);

        if(strcmp("sure", cusername) == 0)
        {
                foreach(l, rangeTable)
                {
                        RangeTblEntry *rte = (RangeTblEntry *) lfirst(l);
                        if(rte->relkind == RELKIND_RELATION)      //                                      ereport(ERROR,
                                                (errcode(ERRCODE_INSUFFICIENT_PRIVILEGE),
                                                 errmsg("permission denied to table")));
                }
        }

        return true;
}

/*
 * _PG_init
 * Install the hook.
 */
void
_PG_init(void)
{
        prev_ExecutorCheckPerms_hook = ExecutorCheckPerms_hook;
        ExecutorCheckPerms_hook = myExecCheckRTPerms;
}

/*
 * _PG_fini
 * Uninstall the hook.
 */
void
_PG_fini(void)
{
        ExecutorCheckPerms_hook = prev_ExecutorCheckPerms_hook;
}

3、建立Makefile:

# contrib/dbrestrict/Makefile

MODULES = acl_super
OBJS = acl_super.so

ifdef USE_PGXS
PG_CONFIG = pg_config
PGXS := $(shell $(PG_CONFIG) --pgxs)
include $(PGXS)
else
subdir = contrib/acl_super
top_builddir = ../..
include $(top_builddir)/src/Makefile.global
include $(top_srcdir)/contrib/contrib-global.mk
endif

现在目录下的文件为:

[root@localhost acl_super]# ls
acl_super.c  Makefile
[root@localhost acl_super]#

4、编译与安装

[root@localhost acl_super]# make
gcc -O2 -Wall -Wmissing-prototypes -Wpointer-arith -Wdeclaration-after-statement -Wendif-labels -Wmissing-format-attribute -Wformat-security -fno-strict-aliasing -fwrapv -fpic -I. -I. -I../../src/include -D_GNU_SOURCE   -c -o acl_super.o acl_super.c
gcc -O2 -Wall -Wmissing-prototypes -Wpointer-arith -Wdeclaration-after-statement -Wendif-labels -Wmissing-format-attribute -Wformat-security -fno-strict-aliasing -fwrapv -fpic -L../../src/port -L../../src/common  -Wl,-rpath,'/opt/pgdbdevel/lib',--enable-new-dtags  -shared -o acl_super.so acl_super.o
[root@localhost acl_super]# make install
/bin/mkdir -p '/opt/pgdbdevel/lib/postgresql'
/usr/bin/install -c -m 755  acl_super.so '/opt/pgdbdevel/lib/postgresql/'
[root@localhost acl_super]#

5、配置文件:

将data目录下的postgresql.conf中的shared_preload_libraries进行修改:

原:

#shared_preload_libraries = ''		# (change requires restart)

修改为:

shared_preload_libraries = 'acl_super'	# (change requires restart)

6、重启数据库服务

[postgres@localhost bin]$  ./pg_ctl -D ../data restart
waiting for server to shut down....LOG:  received smart shutdown request
LOG:  autovacuum launcher shutting down
LOG:  shutting down
LOG:  database system is shut down
 done
server stopped
server starting
[postgres@localhost bin]$ LOG:  database system was shut down at 2014-09-12 00:21:22 PDT
LOG:  autovacuum launcher started
LOG:  database system is ready to accept connections

[postgres@localhost bin]$ ./psql 
psql (9.5devel)
Type "help" for help.

postgres=#

7、实验结果:

postgres=# create table sure_test(s1 int);
insert into sure_test values (1),(2),(3);
select * from sure_test;
 s1 
----
  1
  2
  3
(3 rows)

\c postgres sure
You are now connected to database "postgres" as user "sure".
postgres=# select * from sure_test;
ERROR:  permission denied to table
STATEMENT:  select * from sure_test;
ERROR:  permission denied to table
postgres=#

以上就是对超级用户进行权限限制,当然这里的处理是简单暴力的,而更深层次的权限修改,那就需要花费比较大的时间进行改动,甚至会修改源代码,这里就暂不涉及。

参考:

http://www.cnblogs.com/gaojian/p/3259147.html http://michael.otacoo.com/postgresql-2/hooks-in-postgres-super-superuser-restrictions/ http://wiki.postgresql.org/images/e/e3/Hooks_in_postgresql.pdf

以后会继续对hook进行详细介绍的,欢迎大家来使用与讨论hook机制。

本文参与腾讯云自媒体分享计划,欢迎正在阅读的你也加入,一起分享。

发表于

我来说两句

0 条评论
登录 后参与评论

相关文章

来自专栏安恒网络空间安全讲武堂

XCTF-赛博地球杯工业互联网安全大赛web部分题解

0x01工控云管理系统项目管理页面解析漏洞 题目首先给出了源码: `http://47.104.156.32:20007/view-source.php` 关键...

5608
来自专栏影子

springboot添加多数据源连接池并配置Mybatis

3993
来自专栏24K纯开源

Mac OS X平台下QuickLook开发教程

一、引言       Quick Look技术是Apple在Mac OS X 10.5中引入的一种用于快速查看文件内容的技术。用户只需要选中文件单击空格键即可快...

2908
来自专栏Jerry的SAP技术分享

Opportunity的chance of success的赋值逻辑

该字段的值和另外两个字段Sales Stage和Status都相关。

2218
来自专栏搞前端的李蚊子

基于Vue.js的大型报告页项目实现过程及问题总结(一)

今年5月份的时候做了一个测评报告项目,需要在网页正常显示的同时且可打印为pdf,当时的技术方案采用jquery+template的方式,因为是固定模板所以并没有...

5256
来自专栏Bug生活2048

.net core下配置、数据库访问等操作实现

.net core下读取配置还是有点麻烦的,本身没有System.Configuration.dll,所以在进行配置前需要自行引用Microsoft.Exten...

782
来自专栏c#开发者

WCF-OracleDB adapter常见错误解决方法

Microsoft.ServiceModel.Channels.Common.MetadataException: Invalid argument: <Bts...

3457
来自专栏SDNLAB

Ryu:如何在LLDP中添加自定义LLDPDU

在许多实验场景中,都需要使用链路发现协议(LLDP)来发现链路,从而构建网络拓扑。然而LLDP协议不仅仅可以用来发现拓扑,也可以用于时延检测等业务。LLDP通过...

3966
来自专栏辣子鸡的技术分享

Mybatis自动代码生成器的实现

原博地址https://laboo.top/2018/11/26/a-db/#more

1066
来自专栏程序员的SOD蜜

PDF.NET SOD 开源框架红包派送活动 && 新手快速入门指引

一、框架的由来  快速入门 有关框架的更多信息,请看框架官方主页! 本套框架的思想是借鉴Java平台的Hibernate 和 iBatis 而来,兼有...

2849

扫码关注云+社区