ORACLE中SID和SERVICE_NAME的区别
数据库名:数据库名是存储在控制文件中的名称,它代表的是数据库,也就是数据库包含的所有的物理文件的总称。
实例名:用于响应某个数据库操作的数据库管理系统的名称。实例名是由初始化参数文件的参数instance_name决定的。如果这个参数不被指定(即instance_name没有被指定为任何值),那么实例的名字由该用户的环境变量ORACLE_SID(注意这里是大写)决定。一个数据库可以有多个实例,例如RAC,实例名(SID)用于标识数据库内的每一个实例的名称
服务名:SERVICE_NAME指的是listener中的全局数据库名:这个名字是由listener.ora中GLOBAL_DBNAME参数决定的。SERVICE_NAME是Oracle8i新引进的,8i之前一个数据库只能有一个实例。8i之后一个数据库可以对应多个实例,例如RAC。为了充分利用所有实例,并且令客户端连接配置简单,ORACLE提出了SERVICE_NAME的概念。该参数直接对应数据库,而不是某个实例。
SELECT NAME FROM V$DATABASE; --数据库名
SELECT instance_name FROM V$INSTANCE; --实例名
select global_name from global_name; --服务名
java连接oracle的三种方式:
格式一:jdbc:oracle:thin:@//<host>:<port>/<service_name>
格式二:jdbc:oracle:thin:@<host>:<port>:<SID>
格式三:jdbc:oracle:thin:@<TNSName>
python连接oracle方法:
url = 'oracle://{username}:{passwd}@{host}:{port}/{sid}'.format(**config) #dbname
url = 'oracle://{username}:{passwd}@{host}:{port}/?service_name={service_name}'.format(**config)
create_engine(url, encoding='utf-8')
create_engine("oracle+cx_oracle://scott:tiger@oracle1120/?encoding=UTF-8&nencoding=UTF-8")
create_engine("oracle+cx_oracle://scott:tiger@hostname:1521/dbname?encoding=UTF-8&nencoding=UTF-8")
create_engine("oracle+cx_oracle://user:pass@dsn?encoding=UTF-8&nencoding=UTF-8&mode=SYSDBA&events=true")
create_engine(
"oracle+cx_oracle://user:pass@dsn",
connect_args={
"encoding": "UTF-8",
"nencoding": "UTF-8",
"mode": cx_Oracle.SYSDBA,
"events": True
}
)cx_Oracle.makedsn('host',port,service_name='service_name')
cx_Oracle.makedsn('host',port,sid='sid')cx_Oracle.connect("user", "pass", "ip/orcl")
db_config.py
user = "pythonhol"
pw = "welcome"
dsn = "localhost/orclpdb1"
import cx_Oracle as orcl
import db_config
con = cx_Oracle.connect(db_config.user, db_config.pw, db_config.dsn)
cur = con.cursor()
cur.execute("select * from dept order by deptno")
res = cur.fetchall()
for row in res:
print(row)
cur.close()
con.close()
print(cx_Oracle.version)
print("Database version:", con.version)
print("Client version:", cx_Oracle.clientversion())
oracle连接池 connect_pool.py
import cx_Oracle
import threading
import db_config
#创建Oracle连接池,最小2,最大5个连接
pool = cx_Oracle.SessionPool(db_config.user, db_config.pw, db_config.dsn,
min = 2, max = 5, increment = 1, threaded = True)
def Query():
con = pool.acquire()
cur = con.cursor()
for i in range(4):
cur.execute("select myseq.nextval from dual")
seqval, = cur.fetchone() #没有,则是类似(1,)的元组
print("Thread", threading.current_thread().name, "fetched sequence =", seqval)
thread1 = threading.Thread(name='#1', target=Query)
thread1.start()
thread2 = threading.Thread(name='#2', target=Query)
thread2.start()
thread1.join()
thread2.join()
'''
numberOfThreads = 2
threadArray = []
for i in range(numberOfThreads):
thread = threading.Thread(name = '#' + str(i), target = Query)
threadArray.append(thread)
thread.start()
for t in threadArray:
t.join()
'''
print("All done!")
含DRCP的oracle连接
当数据库主机没有足够的内存来处理所需数量的数据库服务器进程时,DRCP很有用。但是,如果数据库主机内存足够大,则通常建议使用默认的“专用”服务器进程模型。如果启用了DRCP,则最好将其与cx_Oracle的中间层连接池结合使用。
:pooled 告诉数据库使用池化服务器,ATTR_PURITY_SELF:可以在连接调用之间保留会话状态,被不同连接类名称的应用程序重用时,连接信息将丢弃,如不共享会话信息则使用ATTR_PURITY_NEW
con = cx_Oracle.connect(db_config.user, db_config.pw, db_config.dsn + ":pooled",
cclass="PYTHONHOL", purity=cx_Oracle.ATTR_PURITY_SELF)
print("Database version:", con.version)
含DRCP的oracle连接池
如果收到错误消息“ ORA-24459:OCISessionGet()等待池创建新连接超时”或“ ORA-24418:无法打开其他会话”,那是因为在池启动或增长时正在发出连接请求。将参数添加 getmode = cx_Oracle.SPOOL_ATTRVAL_WAIT
到 cx_Oracle.SessionPool()
调用中,以便连接请求等待池中的连接可用。
import cx_Oracle
import threading
pool = cx_Oracle.SessionPool(db_config.user, db_config.pw, db_config.dsn + ":pooled",
min = 2, max = 5, increment = 1, threaded = True)
def Query():
con = pool.acquire(cclass = "PYTHONHOL", purity = cx_Oracle.ATTR_PURITY_SELF)
cur = conn.cursor()
for i in range(4):
cur.execute("select myseq.nextval from dual")
seqval, = cur.fetchone()
print("Thread", threading.current_thread().name, "fetched sequence =", seqval)
numberOfThreads = 2
threadArray = []
for i in range(numberOfThreads):
thread = threading.Thread(name = '#' + str(i), target = Query)
threadArray.append(thread)
thread.start()
for t in threadArray:
t.join()
print("All done!")
增删改查操作
cur = con.cursor()
cur.execute("select * from dept order by deptno")
for deptno, dname, loc in cur:
print("Department number: ", deptno)
print("Department name: ", dname)
print("Department location:", loc)
for row in cur.execute("select * from dept"):
print(row)
row = cur.fetchone()
print(row)
#cur.arraysize = 10 #默认100
row = cur.fetchall()
print(row)
res = cur.fetchmany(numRows = 3)
print(res)
cur.scroll(2, mode = "absolute") # 滚动光标到第二行
print(cur.fetchone())
cur.scroll(-1) # 滚动光标到最后一行
print(cur.fetchone())
sql = "select * from dept where deptno = :id order by deptno"
cur.execute(sql, id = 20)
res = cur.fetchall()
print(res)
print(con.stmtcachesize)
#create table mytab (id number, data varchar2(20), constraint my_pk primary key (id));
rows = [ (1, "First" ), (2, "Second" ), (3, "Third" ), (4, "Fourth" ),
(5, "Fifth" ), (6, "Sixth" ), (7, "Seventh" ) ]
cur.executemany("insert into mytab(id, data) values (:1, :2)", rows)
#违反主键唯一性约束,并打印错误
rows = [ (1, "First" ), (2, "Second" ), (3, "Third" ), (4, "Fourth" ),
(5, "Fifth" ), (6, "Sixth" ),(6, "Duplicate" ),(7, "Seventh" ) ]
cur.executemany("insert into mytab(id, data) values (:1, :2)", rows, batcherrors = True)
for error in cur.getbatcherrors():
print("Error", error.message.rstrip(), "at row offset", error.offset)
#在脚本末尾,cx_Oracle将回滚未提交的事务。如果要提交结果/强制回滚,可以使用:
con.commit()
con.rollback()
更改输出类型/格式
1. 更改输出类型:如果直接执行for循环输出10,则下述代码输出‘10’
def ReturnNumbersAsStrings(cursor, name, defaultType, size, precision, scale):
if defaultType == cx_Oracle.NUMBER:
return cursor.var(str, 9, cursor.arraysize)
cur.outputtypehandler = ReturnNumbersAsStrings
for row in cur.execute("select * from dept"):
print(row)
2. 更改输出格式:如果直接执行for循环输出:Value: 0.1 * 3 = 0.30000000000000004, 则下述代码输出:Value: 0.1 * 3 = 0.3
import decimal
def ReturnNumbersAsDecimal(cursor, name, defaultType, size, precision, scale):
if defaultType == cx_Oracle.NUMBER:
return cursor.var(str, 9, cursor.arraysize, outconverter = decimal.Decimal)
#该情况下可简写为
#return cursor.var(decimal.Decimal, arraysize = cursor.arraysize)
cur.outputtypehandler = ReturnNumbersAsDecimal
for value, in cur.execute("select 0.1 from dual"):
print("Value:", value, "* 3 =", value * 3)
3. 输出列名 rowfactory
cur.execute("select deptno, dname from dept")
cur.rowfactory = collections.namedtuple("MyClass", ["DeptNumber", "DeptName"])
rows = cur.fetchall()
for row in rows:
print(row.DeptNumber, "->", row.DeptName)
命名对象
#命名对象类型,如:Spatial Data Objects (SDO)
#sqlplus>desc MDSYS.SDO_GEOMETRY
# Create table
cur.execute("""begin
execute immediate 'drop table testgeometry';
exception when others then
if sqlcode <> -942 then
raise;
end if;
end;""")
cur.execute("""create table testgeometry (
id number(9) not null,
geometry MDSYS.SDO_GEOMETRY not null)""")
# Create and populate Oracle objects
typeObj = con.gettype("MDSYS.SDO_GEOMETRY")
elementInfoTypeObj = con.gettype("MDSYS.SDO_ELEM_INFO_ARRAY")
ordinateTypeObj = con.gettype("MDSYS.SDO_ORDINATE_ARRAY")
obj = typeObj.newobject()
obj.SDO_GTYPE = 2003
obj.SDO_ELEM_INFO = elementInfoTypeObj.newobject()
obj.SDO_ELEM_INFO.extend([1, 1003, 3])
obj.SDO_ORDINATES = ordinateTypeObj.newobject()
obj.SDO_ORDINATES.extend([1, 1, 5, 7])
print("Created object", obj)
# Add a new row
print("Adding row to table...")
cur.execute("insert into testgeometry values (1, :objbv)", objbv = obj)
print("Row added!")
# Query the row
print("Querying row just inserted...")
cur.execute("select id, geometry from testgeometry");
for row in cur:
print(row)
# ------------------------------
# Define a function to dump the contents of an Oracle object
def dumpobject(obj, prefix = " "):
if obj.type.iscollection:
print(prefix, "[")
for value in obj.aslist():
if isinstance(value, cx_Oracle.Object):
dumpobject(value, prefix + " ")
else:
print(prefix + " ", repr(value))
print(prefix, "]")
else:
print(prefix, "{")
for attr in obj.type.attributes:
value = getattr(obj, attr.name)
if isinstance(value, cx_Oracle.Object):
print(prefix + " " + attr.name + " :")
dumpobject(value, prefix + " ")
else:
print(prefix + " " + attr.name + " :", repr(value))
print(prefix, "}")
# Query the row
print("Querying row just inserted...")
cur.execute("select id, geometry from testgeometry")
for id, obj in cur:
print("Id: ", id)
dumpobject(obj)
接上
# Get Oracle type information
objType = con.gettype("MDSYS.SDO_GEOMETRY")
elementInfoTypeObj = con.gettype("MDSYS.SDO_ELEM_INFO_ARRAY")
ordinateTypeObj = con.gettype("MDSYS.SDO_ORDINATE_ARRAY")
# Convert a Python object to MDSYS.SDO_GEOMETRY
def SDOInConverter(value):
obj = objType.newobject()
obj.SDO_GTYPE = value.gtype
obj.SDO_ELEM_INFO = elementInfoTypeObj.newobject()
obj.SDO_ELEM_INFO.extend(value.elemInfo)
obj.SDO_ORDINATES = ordinateTypeObj.newobject()
obj.SDO_ORDINATES.extend(value.ordinates)
return obj
def SDOInputTypeHandler(cursor, value, numElements):
if isinstance(value, mySDO):
return cursor.var(cx_Oracle.OBJECT, arraysize = numElements,
inconverter = SDOInConverter, typename = objType.name)
sdo = mySDO(2003, [1, 1003, 3], [1, 1, 5, 7]) # Python object
cur.inputtypehandler = SDOInputTypeHandler
cur.execute("insert into testgeometry values (:1, :2)", (1, sdo))
plsql函数/存储过程
'''
create table ptab (mydata varchar(20), myid number);
create or replace function myfunc(d_p in varchar2, i_p in number) return number as
begin
insert into ptab (mydata, myid) values (d_p, i_p);
return (i_p * 2);
end;
/
'''
res = cur.callfunc('myfunc', int, ('abc', 2))
print(res)
'''
create or replace procedure myproc(v1_p in number, v2_p out number) as
begin
v2_p := v1_p * 2;
end;
/
'''
myvar = cur.var(int)
cur.callproc('myproc', (123, myvar))
print(myvar.getvalue())
CLOB类型操作
print("Inserting data...")
cur.execute("truncate table testclobs")
longString = ""
for i in range(5):
char = chr(ord('A') + i)
longString += char * 250
cur.execute("insert into testclobs values (:1, :2)",
(i + 1, "String data " + longString + ' End of string'))
con.commit()
print("Querying data...")
cur.execute("select * from testclobs where id = :id", {'id': 1})
(id, clob) = cur.fetchone()
print("CLOB length:", clob.size())
clobdata = clob.read() #clob.read(1,10) #1开始长度为10
print("CLOB data:", clobdata)
#直接转换clob对象为字符串格式
def OutputTypeHandler(cursor, name, defaultType, size, precision, scale):
if defaultType == cx_Oracle.CLOB:
return cursor.var(cx_Oracle.LONG_STRING, arraysize = cursor.arraysize)
print("Querying data...")
con.outputtypehandler = OutputTypeHandler #cur.outputtypehandler?
cur.execute("select * from testclobs where id = :id", {'id': 1})
(id, clobdata) = cur.fetchone()
print("CLOB length:", len(clobdata))
print("CLOB data:", clobdata)
自定义connection子类
class MyConnection(cx_Oracle.Connection):
def __init__(self):
print("Connecting to database")
return super(MyConnection, self).__init__(db_config.user, db_config.pw, db_config.dsn)
def cursor(self):
return MyCursor(self)
class MyCursor(cx_Oracle.Cursor):
def execute(self, statement, args):
print("Executing:", statement)
print("Arguments:")
for argIndex, arg in enumerate(args):
print(" Bind", argIndex + 1, "has value", repr(arg))
return super(MyCursor, self).execute(statement, args)
def fetchone(self):
print("Fetchone()")
return super(MyCursor, self).fetchone()
con = MyConnection()
cur = con.cursor()
cur.execute("select count(*) from emp where deptno = :bv", (10,))
count, = cur.fetchone()
print("Number of rows:", count)
Oracle Advanced Queuing (AQ)
BOOK_TYPE_NAME = "UDT_BOOK"
QUEUE_NAME = "BOOKS"
QUEUE_TABLE_NAME = "BOOK_QUEUE_TABLE"
# Cleanup
cur.execute(
"""begin
dbms_aqadm.stop_queue('""" + QUEUE_NAME + """');
dbms_aqadm.drop_queue('""" + QUEUE_NAME + """');
dbms_aqadm.drop_queue_table('""" + QUEUE_TABLE_NAME + """');
execute immediate 'drop type """ + BOOK_TYPE_NAME + """';
exception when others then
if sqlcode <> -24010 then
raise;
end if;
end;""")
# Create a type
print("Creating books type UDT_BOOK...")
cur.execute("""
create type %s as object (
title varchar2(100),
authors varchar2(100),
price number(5,2)
);""" % BOOK_TYPE_NAME)
# Create queue table and queue and start the queue
print("Creating queue table...")
cur.callproc("dbms_aqadm.create_queue_table",
(QUEUE_TABLE_NAME, BOOK_TYPE_NAME))
cur.callproc("dbms_aqadm.create_queue", (QUEUE_NAME, QUEUE_TABLE_NAME))
cur.callproc("dbms_aqadm.start_queue", (QUEUE_NAME,))
booksType = con.gettype(BOOK_TYPE_NAME)
queue = con.queue(QUEUE_NAME, booksType)
# Enqueue a few messages
print("Enqueuing messages...")
BOOK_DATA = [
("The Fellowship of the Ring", "Tolkien, J.R.R.", decimal.Decimal("10.99")),
("Harry Potter and the Philosopher's Stone", "Rowling, J.K.",
decimal.Decimal("7.99"))
]
for title, authors, price in BOOK_DATA:
book = booksType.newobject()
book.TITLE = title
book.AUTHORS = authors
book.PRICE = price
print(title)
queue.enqOne(con.msgproperties(payload=book))
con.commit()
# Dequeue the messages
print("\nDequeuing messages...")
queue.deqOptions.wait = cx_Oracle.DEQ_NO_WAIT
while True:
props = queue.deqOne()
if not props:
break
print(props.payload.TITLE)
con.commit()
print("\nDone.")
json操作
soda = con.getSodaDatabase()
collection = soda.createCollection("friends")
content = {'name': 'Jared', 'age': 35, 'address': {'city': 'Melbourne'}}
doc = collection.insertOneAndGet(content)
key = doc.key
doc = collection.find().key(key).getOne()
content = doc.getContent()
print('Retrieved SODA document dictionary is:')
print(content)
myDocs = [
{'name': 'Gerald', 'age': 21, 'address': {'city': 'London'}},
{'name': 'David', 'age': 28, 'address': {'city': 'Melbourne'}},
{'name': 'Shawn', 'age': 20, 'address': {'city': 'San Francisco'}}
]
collection.insertMany(myDocs)
#----------
filterSpec = { "address.city": "Melbourne" }
myDocuments = collection.find().filter(filterSpec).getDocuments()
print('Melbourne people:')
for doc in myDocuments:
print(doc.getContent()["name"])
#----------
filterSpec = {'age': {'$lt': 25}}
myDocuments = collection.find().filter(filterSpec).getDocuments()
print('Young people:')
for doc in myDocuments:
print(doc.getContent()["name"])
参考链接:
cx_Oracle官方文档:https://cx-oracle.readthedocs.io/en/latest/index.html