这篇文章主要介绍了Python操作sqlite3快速、安全插入数据(防注入)的实例,通过在一个表格中进行操作来论述如何使用Python快速安全地操作sqlite3,需要的朋友可以参考下
import sqlite3
import time
def create_tables(dbname):
conn = sqlite3.connect(dbname)
cursor = conn.cursor()
cursor.execute('''create table userinfo(name text, email text)''')
conn.commit()
cursor.close()
conn.close()
def drop_tables(dbname):
conn = sqlite3.connect(dbname)
cursor = conn.cursor()
cursor.execute('''drop table userinfo''')
conn.commit()
cursor.close()
conn.close()
def insert1():
users = [('qq','qq@example.com'),
('ww','ww@example.com'),
('ee','ee@example.com'),
('rr','rr@example.com'),
('tt','tt@example.com'),
('yy','yy@example.com'),
('uu','uu@example.com')
]
start = time.clock()
conn = sqlite3.connect(dbname)
cursor = conn.cursor()
for user in users:
cursor.execute("insert into userinfo(name, email) values(?, ?)", user)
conn.commit()
cursor.close()
conn.close()
end = time.clock()
print start, end, end-start
def insert2():
users = [('qq','qq@example.com'),
('ww','ww@example.com'),
('ee','ee@example.com'),
('rr','rr@example.com'),
('tt','tt@example.com'),
('yy','yy@example.com'),
('uu','uu@example.com')
]
start = time.clock()
conn = sqlite3.connect(dbname)
cursor = conn.cursor()
for user in users:
cursor.execute("insert into userinfo(name, email) values(?, ?)", user)
conn.commit()
cursor.close()
conn.close()
end = time.clock()
print start, end, end-start
def insert3():
users = [('qq','qq@example.com'),
('ww','ww@example.com'),
('ee','ee@example.com'),
('rr','rr@example.com'),
('tt','tt@example.com'),
('yy','yy@example.com'),
('uu','uu@example.com')
]
start = time.clock()
conn = sqlite3.connect(dbname)
cursor = conn.cursor()
cursor.executemany("insert into userinfo(name, email) values(?, ?)", users)
conn.commit()
cursor.close()
conn.close()
end = time.clock()
print start, end, end-start
if __name__ == '__main__':
dbname = 'test.db'
create_tables(dbname)
insert1()
drop_tables(dbname)
create_tables(dbname)
insert2()
drop_tables(dbname)
create_tables(dbname)
insert3()
drop_tables(dbname)
import sqlite3
def create_tables(dbname):
conn = sqlite3.connect(dbname)
cursor = conn.cursor()
cursor.execute('''create table userinfo(name text, email text)''')
conn.commit()
cursor.close()
conn.close()
def drop_tables(dbname):
conn = sqlite3.connect(dbname)
cursor = conn.cursor()
cursor.execute('''drop table userinfo''')
conn.commit()
cursor.close()
conn.close()
def insert():
users = [('qq','qq@example.com'),
('ww','ww@example.com'),
('ee','ee@example.com'),
('rr','rr@example.com'),
('tt','tt@example.com'),
('yy','yy@example.com'),
('uu','uu@example.com')
]
conn = sqlite3.connect(dbname)
cursor = conn.cursor()
cursor.executemany("insert into userinfo(name, email) values(?, ?)", users)
conn.commit()
cursor.close()
conn.close()
def insecure_select(text):
conn = sqlite3.connect(dbname)
cursor = conn.cursor()
print "select name from userinfo where email='%s'" % text
for row in cursor.execute("select name from userinfo where email='%s'" % text):
print row
def secure_select(text):
conn = sqlite3.connect(dbname)
cursor = conn.cursor()
print "select name from userinfo where email='%s'" % text
for row in cursor.execute("select name from userinfo where email= ? ", (text,)):
print row
if __name__ == '__main__':
dbname = 'test.db'
create_tables(dbname)
insert()
insecure_select("uu@example.com")
insecure_select("' or 1=1;--")
secure_select("uu@example.com")
secure_select("' or 1=1;--")
drop_tables(dbname)
函数insecure_select(text)和secure_select(text)的本意都是根据email获取对应的用户名信息。但是insecure_select(text)的实现容易引起sql注入。
insecure_select("' or 1=1;--")便是一个例子。在insecure_select()中cursor.execute()只有一个参数,即sql语句,这个生成的sql语句如果有问题,还是会照常执行。
secure_select(text)的实现可以防止sql注入,cursor.execute()的第一个参数使用了占位符?表示要被替代的内容,第二个参数指定每个占位符对应的值,在底层实现上,这种方法(至少)转义了特殊字符,可以防止sql注入。
