一、MySQLdb模块 python访问mariadb|Mysql依赖于第三方模块mysqldb,在pypi上下载下来路径:https://pypi.Python.org/pypi/Mysql-python/ MySQL-py
一、MySQLdb模块
python访问mariadb|Mysql依赖于第三方模块mysqldb,在pypi上下载下来
路径:https://pypi.Python.org/pypi/Mysql-python/
MySQL-python依赖于easy_install那先安装setuptools,这里省略
[root@node3 ~]# unzip MySQL-python-1.2.5.zip
[root@Node3 ~]# cd MySQL-python-1.2.5
[root@Node3 MySQL-python-1.2.5]# ls
doc MANIFEST.in _mysql_exceptions.py README.md setup.py
GPL-2.0 metadata.cfg MySQL_python.egg-info setup.cfg setup_windows.py
HISTORY _mysql.c PKG-INFO setup_common.py site.cfg
INSTALL MySQLdb pymemcompat.h setup_posix.py tests
[root@Node3 MySQL-python-1.2.5]# python2.7 setup.py install
sh: mysql_config: command not found #没找到这个命令
Traceback (most recent call last):
File "setup.py", line 17, in <module>
metadata, options = get_config()
File "/root/MySQL-python-1.2.5/setup_posix.py", line 43, in get_config
libs = mysql_config("libs_r")
File "/root/MySQL-python-1.2.5/setup_posix.py", line 25, in mysql_config
raise EnvironmentError("%s not found" % (mysql_config.path,))
EnvironmentError: mysql_config not found
[root@Node3 MySQL-python-1.2.5]# yum install mysql
[root@Node3 MySQL-python-1.2.5]# rpm -ql mysql
/usr/bin/msql2mysql
/usr/bin/my_print_defaults
/usr/bin/mysql
/usr/bin/mysql_config #在这里
/usr/bin/mysql_find_rows
/usr/bin/mysql_waitpid
/usr/bin/mysqlaccess
/usr/bin/mysqladmin
/usr/bin/mysqlbinlog
/usr/bin/mysqlcheck
/usr/bin/mysqldump
/usr/bin/mysqlimport
/usr/bin/mysqlshow
/usr/bin/mysqlslap
/usr/lib64/mysql/mysql_config
/usr/lib64/mysql/mysqlbug
/usr/share/doc/mysql-5.1.73
[root@Node3 MySQL-python-1.2.5]# python2.7 setup.py install
_mysql.c: In function ‘_mysql_ConnectionObject_getattr’:
_mysql.c:2666: error: ‘_mysql_ConnectionObject’ has no member named ‘open’
error: command 'GCc' failed with exit status 1 #又遇到报错,Google后是需要mysql-devel
[root@Node3 MySQL-python-1.2.5]# yum install mysql-devel
[root@Node3 MySQL-python-1.2.5]# python2.7 setup.py install
Adding MySQL-python 1.2.5 to easy-install.pth file
Installed /usr/local/python27/lib/python2.7/site-packages/MySQL_python-1.2.5-py2.7-linux-x86_64.egg
Processing dependencies for MySQL-python==1.2.5
Finished processing dependencies for MySQL-python==1.2.5 #安装成功导入MySQLdb模块:
In [4]: import MySQLdb
In [5]: import MySQLdb. #有众多方法和属性
MySQLdb.BINARY MySQLdb.NULL MySQLdb.connect
MySQLdb.Binary MySQLdb.NUMBER MySQLdb.connections
MySQLdb.Connect MySQLdb.NotSupportedError MySQLdb.constants
MySQLdb.Connection MySQLdb.OperationalError MySQLdb.converters
MySQLdb.DATE MySQLdb.ProgrammingError MySQLdb.cursors
MySQLdb.DBapiSet MySQLdb.ROWID MySQLdb.debug
MySQLdb.DataError MySQLdb.STRING MySQLdb.escape
MySQLdb.DatabaseError MySQLdb.TIME MySQLdb.escape_dict
MySQLdb.Date MySQLdb.TIMESTAMP MySQLdb.escape_sequence
MySQLdb.DateFromTicks MySQLdb.Time MySQLdb.escape_string
MySQLdb.Error MySQLdb.TimeFromTicks MySQLdb.get_client_info
MySQLdb.FIELD_TYPE MySQLdb.Timestamp MySQLdb.paramstyle
MySQLdb.IntegrityError MySQLdb.TimestampFromTicks MySQLdb.release
MySQLdb.InterfaceError MySQLdb.Warning MySQLdb.string_literal
MySQLdb.InternalError MySQLdb._mysql MySQLdb.threadsafety
MySQLdb.MySQLError MySQLdb._mysql_exceptions MySQLdb.times
MySQLdb.MySQLdb MySQLdb.apilevel MySQLdb.version_info
In [11]: help(MySQLdb)
Help on package MySQLdb:
NAME
MySQLdb - MySQLdb - A DB API v2.0 compatible interface to MySQL.
FILE
/usr/local/python27/lib/python2.7/site-packages/MySQL_python-1.2.5-py2.7-linux-x86_64.egg/MySQLdb/__init__.py
DESCRIPTION
This package is a wrapper around _mysql, which mostly implements the
MySQL C API.
connect() -- connects to server
See the C API specification and the MySQL documentation for more info
on other items.
For infORMation on how MySQLdb handles type conversion, see the
MySQLdb.converters module.
PACKAGE CONTENTS #包内容|子模块
connections #连接mysql
constants (package) #
converters #将Python中的字符串转化成mysql可以处理的数据类型
cursors #游标
release
times
In [24]: help(MySQLdb.connection)
Help on class connection in module _mysql:
class connection(__builtin__.object)
| Returns a MYSQL connection object. Exclusive use of
| keyWord parameters strongly recommended. Consult the
| MySQL C API documentation for more details.
|
| host
| string, host to connect
|
| user
| string, user to connect as
|
| passwd
| string, password to use
|
| db
| string, database to use
|
| port
| integer, tcp/IP port to connect to
|
| unix_Socket
| string, location of unix_socket (UNIX-ish only)
|
| conv
| mapping, maps MySQL FIELD_TYPE.* to Python functions which
| convert a string to the appropriate Python type
|
| connect_timeout
| number of seconds to wait before the connection
| attempt fails.
|
| compress
| if set, gzip compression is enabled示例:
In [2]: import MySQLdb
In [7]: conn=MySQLdb.connect(host='127.0.0.1',user='root') #创建连接使用conncet
In [10]: conn.
conn.DataError conn.close conn.get_host_info conn.set_character_set
conn.DatabaseError conn.commit conn.get_proto_info conn.set_server_option
conn.Error conn.converter conn.get_server_info conn.set_sql_mode
conn.IntegrityError conn.cursor conn.info conn.show_warnings
conn.InterfaceError conn.cursorclass conn.insert_id conn.shutdown
conn.InternalError conn.default_cursor conn.kill conn.sqlstate
conn.NotSupportedError conn.dump_debug_info conn.literal conn.stat
conn.OperationalError conn.encoders conn.messages conn.store_result
conn.ProgrammingError conn.errno conn.next_result conn.string_decoder
conn.Warning conn.error conn.open conn.string_literal
conn.affected_rows conn.errorhandler conn.ping conn.thread_id
conn.autocommit conn.escape conn.port conn.unicode_literal
conn.begin conn.escape_string conn.query conn.use_result
conn.change_user conn.field_count conn.rollback conn.warning_count
conn.character_set_name conn.get_autocommit conn.select_db
conn.client_flag conn.get_character_set_info conn.server_capabilities
In [14]: conn.stat
Out[14]: <function stat>
In [15]: conn.stat()
Out[15]: 'Uptime: 719 Threads: 1 Questions: 6 Slow queries: 0 Opens: 15 Flush tables: 1 Open tables: 8 Queries per second avg: 0.8'
In [4]: s1=conn.cursor() #创建游标
In [5]: s1.
s1.DataError s1.arraysize s1.fetchone
s1.DatabaseError s1.callproc s1.lastrowid
s1.Error s1.close s1.messages
s1.IntegrityError s1.connection s1.nextset
s1.InterfaceError s1.description s1.rowcount
s1.InternalError s1.description_flags s1.rownumber
s1.MySQLError s1.errorhandler s1.scroll
s1.NotSupportedError s1.execute s1.setinputsizes
s1.OperationalError s1.executemany s1.setoutputsizes
s1.ProgrammingError s1.fetchall
s1.Warning s1.fetchmany
In [5]: s1.execute('SHOW DATABASES;') #执行SQL语句
Out[5]: 3L #返回的结果
In [6]: s1.fe
s1.fetchall s1.fetchmany s1.fetchone
In [6]: s1.fetchall() #详细查看返回的结果,此时游标已经指到了尾部
Out[6]: (('information_schema',), ('mysql',), ('test',))
In [7]: s1.fetchone() #这里没数据了,需要调整游标的位置
In [8]: s1.fetchmany
Out[8]: <bound method Cursor.fetchmany of <MySQLdb.cursors.Cursor object at 0x2db8e90>>
In [9]: s1.fetchmany()
Out[9]: ()
In [11]: s1.scroll(0,mode='absolute') #移到首部
In [13]: s1.fetchone() #读取一行
Out[13]: ('information_schema',)
In [14]: s1.fetchone()
Out[14]: ('mysql',)
In [15]: s1.fetchone()
Out[15]: ('test',)
In [16]: s1.fetchone()
In [17]: s1.scroll(1,mode='absolute')
In [18]: s1.fetchone()
Out[18]: ('mysql',)
In [19]: s1.fetchone()
Out[19]: ('test',)
In [20]: s1.fetchone()
In [21]: s1.scroll(0,mode='absolute')
In [22]: s1.fetchmany()
Out[22]: (('information_schema',),)
In [23]: s1.fetchmany()
Out[23]: (('mysql',),)
In [24]: s1.fetchmany()
Out[24]: (('test',),)
In [25]: s1.fetchmany()
Out[25]: ()
In [26]: s1.scroll(0,mode='absolute')
In [32]: s1.fetchmany(3) #可以指定一次读取几行
Out[32]: (('information_schema',), ('mysql',), ('test',))
In [33]: s1.fetchmany(2)
Out[33]: ()
In [34]: s1.scroll(0,mode='absolute')
In [35]: s1.fetchmany(2)
Out[35]: (('information_schema',), ('mysql',))
In [36]: s1.close() #关闭游标
In [37]: conn.close() #关闭连接二、socket模块
Python 提供了两个级别访问的网络服务。
低级别的网络服务支持基本的 Socket,它提供了标准的 BSD Sockets API,可以访问底层操作系统Socket接口的全部方法。
什么是socket?
Socket又称"套接字",应用程序通常通过"套接字"向网络发出请求或者应答网络请求,使主机间或者一台计算机上的进程间可以通讯。
1、编写服务器端程序
1)创建socket
Python 中,我们用 socket()函数来创建套接字,语法格式如下:
socket.socket([family[, type[, proto]]])
socket.socket(family,type)
family 套接字家族
AF_INET:
AF_UNIX:
type 套接字类型
SOCK_STREAM
SOCK_DGRAM
proto
tcp
udp
| 函数 | 描述 |
|---|---|
| 服务器端套接字 | |
| s.bind() | 绑定地址(host,port)到套接字, 在AF_INET下,以元组(host,port)的形式表示地址。 |
| s.listen() | 开始TCP监听。backlog指定在拒绝连接之前,操作系统可以挂起的最大连接数量。该值至少为1,大部分应用程序设为5就可以了。 |
| s.accept() | 被动接受TCP客户端连接,(阻塞式)等待连接的到来 |
| 客户端套接字 | |
| s.connect() | 主动初始化TCP服务器连接,。一般address的格式为元组(hostname,port),如果连接出错,返回socket.error错误。 |
| s.connect_ex() | connect()函数的扩展版本,出错时返回出错码,而不是抛出异常 |
| 公共用途的套接字函数 | |
| s.recv() | 接收TCP数据,数据以字符串形式返回,bufsize指定要接收的最大数据量。flag提供有关消息的其他信息,通常可以忽略。 |
| s.send() | 发送TCP数据,将string中的数据发送到连接的套接字。返回值是要发送的字节数量,该数量可能小于string的字节大小。 |
| s.sendall() | 完整发送TCP数据,完整发送TCP数据。将string中的数据发送到连接的套接字,但在返回之前会尝试发送所有数据。成功返回None,失败则抛出异常。 |
| s.recvform() | 接收UDP数据,与recv()类似,但返回值是(data,address)。其中data是包含接收数据的字符串,address是发送数据的套接字地址。 |
| s.sendto() | 发送UDP数据,将数据发送到套接字,address是形式为(ipaddr,port)的元组,指定远程地址。返回值是发送的字节数。 |
| s.close() | 关闭套接字 |
| s.getpeername() | 返回连接套接字的远程地址。返回值通常是元组(ipaddr,port)。 |
| s.getsockname() | 返回套接字自己的地址。通常是一个元组(ipaddr,port) |
| s.setsockopt(level,optname,value) | 设置给定套接字选项的值。 |
| s.getsockopt(level,optname[.buflen]) | 返回套接字选项的值。 |
| s.settimeout(timeout) | 设置套接字操作的超时期,timeout是一个浮点数,单位是秒。值为None表示没有超时期。一般,超时期应该在刚创建套接字时设置,因为它们可能用于连接的操作(如connect()) |
| s.gettimeout() | 返回当前超时期的值,单位是秒,如果没有设置超时期,则返回None。 |
| s.fileno() | 返回套接字的文件描述符。 |
| s.setblocking(flag) | 如果flag为0,则将套接字设为非阻塞模式,否则将套接字设为阻塞模式(默认值)。非阻塞模式下,如果调用recv()没有发现任何数据,或send()调用无法立即发送数据,那么将引起socket.error异常。 |
| s.makefile() | 创建一个与该套接字相关连的文件 |
示例:
tcpconn=scoket.socket(socket.AF_INET,sockot.SOCK_STREAM)
In [44]: import socket
In [45]: tcpconn=socket.socket(socket.AF_INET,socket.SOCK_STREAM)
In [46]: tcpconn.
tcpconn.accept tcpconn.getsockname tcpconn.recvfrom_into
tcpconn.bind tcpconn.getsockopt tcpconn.send
tcpconn.close tcpconn.gettimeout tcpconn.sendall
tcpconn.connect tcpconn.listen tcpconn.sendto
tcpconn.connect_ex tcpconn.makefile tcpconn.setblocking
tcpconn.dup tcpconn.proto tcpconn.setsockopt
tcpconn.family tcpconn.recv tcpconn.settimeout
tcpconn.fileno tcpconn.recv_into tcpconn.shutdown
tcpconn.getpeername tcpconn.recvfrom tcpconn.type 2)绑定地址
使用套接字对象bind方法绑定于某地址和端口
tcpconn.bind(('ip',port))
In [47]: help(tcpconn.bind)
Help on method bind:
bind(...) method of socket._socketobject instance
bind(address)
Bind the socket to a local address. For IP sockets, the address is a
pair (host, port); the host must refer to the local host. For raw packet
sockets the address is a tuple (ifname, proto [,pkttype [,hatype]])
(END)
In [48]: tcpconn.bind("192.168.10.3",8023)
---------------------------------------------------------------------------
TypeError Traceback (most recent call last)
<ipython-input-48-a9abfbcc4351> in <module>()
----> 1 tcpconn.bind("192.168.10.3",8023)
/usr/local/python27/lib/python2.7/socket.pyc in meth(name, self, *args)
222
223 def meth(name,self,*args):
--> 224 return getattr(self._sock,name)(*args)
225
226 for _m in _socketmethods:
TypeError: bind() takes exactly one argument (2 given)
In [49]: tcpconn.bind(("192.168.10.3",8023)3)使用listen方法进行监听状态
tcpconn.listen(backlog) #backlog 等待队列的长度
tcpconn.listen(100)
In [50]: tcpconn.listen(30)
[root@Node3 ~]# ss -nlt
State Recv-Q Send-Q Local Address:Port Peer Address:Port
LISTEN 0 128 *:7500 *:*
LISTEN 0 128 *:7501 *:*
LISTEN 0 100 *:9422 *:*
LISTEN 0 128 :::22 :::*
LISTEN 0 128 *:22 *:*
LISTEN 0 30 192.168.10.3:8023 *:*
LISTEN 0 100 ::1:25 :::*
LISTEN 0 100 127.0.0.1:25 *:*
LISTEN 0 128 127.0.0.1:6010 *:*
LISTEN 0 128 ::1:6010 :::*
LISTEN 0 128 127.0.0.1:6011 *:*
LISTEN 0 128 ::1:6011 :::*
LISTEN 0 50 *:3306 *:* 4)循环监听状态
使用套接字对象的accept方法接收用户请求
In [51]: help(tcpconn.accept) #返回(客户端Ip地址,端口)
Help on method accept in module socket:
accept(self) method of socket._socketobject instance
accept() -> (socket object, address info)
Wait for an incoming connection. Return a new socket representing the
connection, and the address of the client. For IP sockets, the address
info is a pair (hostaddr, port).
In [52]: ci,cp=tcpconn.accept() #此时服务端阻塞2、编写客户端程序
1)创建一个socket对象,以连接服务器端
clientsock=socket.socket(socket.AF_INET,sock.SOCK_STREAM)
In [6]: import socket
In [7]: clientsock=socket.socket(socket.AF_INET,socket.SOCK_STREAM)2)连接至服务器
clientscok.connect(('server_ip',server_port))
In [8]: clientsock.connect(('192.168.10.3',8023))此时再观察服务器端:
In [55]: ci,cp=tcpconn.accept() #服务器端收到数据,结束阻塞
In [56]: ci
Out[56]: <socket._socketobject at 0x2f16590>
In [57]: ci()
---------------------------------------------------------------------------
TypeError Traceback (most recent call last)
<ipython-input-57-3D2081a2327e> in <module>()
----> 1 ci()
TypeError: '_socketobject' object is not callable
In [58]: ci,cp #返回2各对象,ci是一个socket对象,cp是一个元祖对象
Out[58]: (<socket._socketobject at 0x2f16590>, ('192.168.10.3', 34873)) 3)发送请求
clientscok.send()
In [9]: clientsock.send('hello server')
Out[9]: 11 但这么操作当客户端连接进服务器端后,连接就断开了,我们应该写脚本来实现服务器处于循环监听状态
脚本文件:
[root@Node3 ~]# cat server.py #服务器端
#!/usr/local/bin/python2.7
#
import socket
s=socket.socket(socket.AF_INET,socket.SOCK_STREAM)
sa=("192.168.10.3",8030)
s.bind(sa)
s.listen(20)
while True:
cinfo,caddr=s.accept()
print "Got a connection from %s" %caddr[0]
data=cinfo.recv(1024)
print "Receive data:%s" %data
cinfo.send("echo: " + data)
cinfo.close()
[root@Node3 ~]# cat client.py #客户端
#!/usr/local/bin/python2.7
#
import socket
c=socket.socket(socket.AF_INET,socket.SOCK_STREAM)
saddr=("192.168.10.3",8030)
c.connect(saddr)
c.send("Hello Server")
data=c.recv(1024)
print "Reply from server %s" %data执行脚本:
[root@Node3 ~]# python2.7 server.py #执行服务器端脚本
#阻塞状态[root@Node3 ~]# python2.7 client.py #执行客户端脚本
Reply from server echo: Hello Server再看服务器端:
[root@Node3 ~]# python2.7 server.py
Got a connection from 192.168.10.3
Receive data:Hello Server
#仍阻塞状态修改下客户端脚本再执行一次:
[root@Node3 ~]# vi client.py
[root@Node3 ~]# python2.7 client.py
Reply from server echo: Hello SB服务器端:
[root@Node3 ~]# python2.7 server.py
Got a connection from 192.168.10.3
Receive data:Hello Server
Got a connection from 192.168.10.3
Receive data:Hello SB--结束END--
本文标题: 【Python基础】10、MySQLdb
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