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python中bottle使用实例代码

作者:qq_26372385

这篇文章主要介绍了python bottle使用实例,主要是搞懂python中如何来组织包,如何调用包,如何读取配置文件,连接数据库,设置路由,路由分组,具体示例代码跟随小编一起看看吧

模仿学习同事的代码来写的,主要是搞懂python中如何来组织包,如何调用包,如何读取配置文件,连接数据库,设置路由,路由分组。(注:使用的是python3.6)

整体目录设计如下:

根据调用层级从上往下来说:

首先项目根目录下的main.py是整个程序的入口,主要作用启动http服务器,调用分组路由。

main.py

import bottle
from confg.conf import CONF
from api.user import User
 
db_url = CONF.db.url
 
default_app = bottle.default_app()
 
#相当于分组路由
default_app.mount("/user", User(db_url, "").app)
 
app = default_app
 
if __name__ == '__main__':
    bottle.run(app=app,
               host="localhost",
               port="8000")

接着是controller层,就是api目录。api目录包括service文件夹和api下的文件。(注:一般来说controller层,service层是同级的,本项目其实api下的非service文件都是属于controller层,所以还是同一层的,因为要遵守调用顺序,不然可能会发生循环调用)。

/api/user.py文件

import logging
 
from bottle import request
#db数据库引擎
from common.base import DB
#调用service层
from api.service.user import UserService
 
logger = logging.getLogger("arview")
 
 
class User(DB, UserService):
 
    def __init__(self, *args, **kwargs):
        print(">>> User init begin")
        logging.debug('>>> User init begin')
        super(User, self).__init__(*args, **kwargs)
        self.dispatch()
        logger.debug('>>> User init end')
 
    def create(self, db=None):
        create_body = request.json
        create_data = self.create_user(create_body, db)
        return create_data
 
    def delete(self, db=None):
        delete_body = request.json
        delete_data = self.delete_user(delete_body, db)
        return delete_data
 
    def list(self, db=None):
 
        list_data = self.list_user(db)
        return list_data
    #相当于分组路由
    def dispatch(self):
        self.app.route('/listUser', method='post')(self.list)
        self.app.route('/createUser', method='post')(self.create)
        self.app.route('/deleteUser', method='post')(self.delete)

/service/user.py

import time
#model层
from db.models.user import UserModel
 
 
class UserService(object):
    def list_user(self, db):
        user_info_list = db.query(UserModel).all()
        for item in user_info_list:
            print(item.username)
        return user_info_list
 
    def create_user(self, create_body, db):
        user_model = UserModel(
            username=create_body.get("username"),
            password=create_body.get("password"),
            role=create_body.get("role"),
            create_time=time.time()
        )
        db.add(user_model)
        db.commit()
        return "success"
 
    def delete_user(self, delete_body, db):
        db.query(UserModel).filter(UserModel.id == (delete_body["id"])).delete()
        db.commit()
        return delete_body

然后是dao层也就是数据库操作层(但是明显虽然有dao层但是数据库操作的逻辑已经在service层里了)

最后是读取配置文件和创建数据库引擎。

读取配置文件使用的包是oslo_config。

conf.py

# coding:utf8
# from __future__ import print_function
from oslo_config import cfg
 
DEFAULT_ARVIEW_DB_NAME = 'ginblog'
DEFAULT_ARVIEW_DB_USER = 'root'
DEFAULT_ARVIEW_DB_USER_PASSWORD = '33demysql'
DEFAULT_ARVIEW_DB_HOST = '81.68.179.136'
DEFAULT_ARVIEW_DB_PORT = 3306
DEFAULT_ARVIEW_DB_URL_TEMPLATE = 'mysql+mysqlconnector://{}:{}@' \
                                 '{}:{}/{}?charset=utf8'
DEFAULT_ARVIEW_DB_URL = DEFAULT_ARVIEW_DB_URL_TEMPLATE.format(
    DEFAULT_ARVIEW_DB_USER,
    DEFAULT_ARVIEW_DB_USER_PASSWORD,
    DEFAULT_ARVIEW_DB_HOST,
    DEFAULT_ARVIEW_DB_PORT,
    DEFAULT_ARVIEW_DB_NAME)
 
# 声明参数选项
opt_group = cfg.OptGroup('keystone_authtoken')
mysql_opt_group = cfg.OptGroup('db')
 
auth_opts = [
    cfg.StrOpt('memcached_servers',
               default='localhost:11211',
               choices=("localhost:11211", "0.0.0.0:11211"),
               help=('localhost local', '0.0.0.0 So listen')
               ),
 
    cfg.StrOpt('signing_dir',
               default='/var/cache/cinder',
               choices=("/var/cache/cinder", "/var/cache/cinder"),
               ),
]
 
# mysql
mysql_opts = [
    cfg.StrOpt('url', default=DEFAULT_ARVIEW_DB_URL),
    cfg.StrOpt('Db', default='3mysql'),
    cfg.StrOpt('DbHost', default='381.68.179.136'),
    cfg.StrOpt('DbPort', default='33306'),
    cfg.StrOpt('DbUser', default='3DbUser'),
    cfg.StrOpt('DbPassWord', default='3DbPassWord'),
    cfg.StrOpt('DbName', default='3DbName'),
    cfg.BoolOpt('create', default=False),
    cfg.BoolOpt('commit', default=True),
    cfg.BoolOpt('echo', default=True, help='是否显示回显'),
    cfg.BoolOpt('echo_pool', default=False, help='数据库连接池是否记录 checkouts/checkins操作'),
    cfg.IntOpt('pool_size', default=1000, help='数据库连接池中保持打开的连接数量'),
    cfg.IntOpt('pool_recycle', default=600, help='数据库连接池在连接被创建多久(单位秒)以后回收连接')
]
 
token_opts = [
    cfg.StrOpt('project_domain_name'),
    cfg.StrOpt('project_name'),
]
 
CINDER_OPTS = (auth_opts +
               token_opts)
MYSQLCINDER_OPTS = (mysql_opts)
 
# 注册参数选项
CONF = cfg.CONF
# 注册组
CONF.register_group(opt_group)
CONF.register_group(mysql_opt_group)
 
# 将各个选项注册进组里
CONF.register_opts(CINDER_OPTS, group=opt_group)
CONF.register_opts(MYSQLCINDER_OPTS, group=mysql_opt_group)
 
if __name__ == "__main__":
    # 要读取哪个配置文件
    CONF(default_config_files=['cinder.conf'])
    print('mysql Db配置组为%s' % (CONF.db.Db))
    print('mysql DbHost%s' % (CONF.db.DbHost))
    print('mysql DbPort配置组为%s' % (CONF.db.DbPort))
    print('mysql DbUser%s' % (CONF.db.DbUser))

配置文件cinder.conf

[db]
Db = mysql
DbHost = 81.68.179.136
DbPort = 3306
DbUser = root
DbPassWord = 33demysql
DbName = ginblog
create = false
commit = true
echo = false
echo_pool = false
pool_size = 1000
pool_recycle =600

它的使用方法是,先声明参数选项就是(相当于声明组)

mysql_opt_group = cfg.OptGroup('db'),

然后声明组内的选项,

mysql_opts = [
    cfg.StrOpt('url', default=DEFAULT_ARVIEW_DB_URL),
    cfg.StrOpt('Db', default='3mysql'),
    cfg.StrOpt('DbHost', default='381.68.179.136'),
    cfg.StrOpt('DbPort', default='33306'),
    cfg.StrOpt('DbUser', default='3DbUser'),
    cfg.StrOpt('DbPassWord', default='3DbPassWord'),
    cfg.StrOpt('DbName', default='3DbName'),
    cfg.BoolOpt('create', default=False),
    cfg.BoolOpt('commit', default=True),
    cfg.BoolOpt('echo', default=True, help='是否显示回显'),
    cfg.BoolOpt('echo_pool', default=False, help='数据库连接池是否记录 checkouts/checkins操作'),
    cfg.IntOpt('pool_size', default=1000, help='数据库连接池中保持打开的连接数量'),
    cfg.IntOpt('pool_recycle', default=600, help='数据库连接池在连接被创建多久(单位秒)以后回收连接')
]

拼接选项

MYSQLCINDER_OPTS = (mysql_opts)

接着注册组,

CONF.register_group(mysql_opt_group)

最后将选项注册进组。

CONF.register_opts(MYSQLCINDER_OPTS, group=mysql_opt_group)

当然最重要的注册参数选项,我的理解就是暴露句柄。

# 注册参数选项
CONF = cfg.CONF

然后创建数据库引擎

common/utils/sqlalchemy_util.py

import logging
from json import loads as json_loads
 
from sqlalchemy.engine import create_engine
from sqlalchemy.pool import QueuePool
from confg import CONF
 
SQLALCHEMY_ENGINE_CONTAINER = {}
 
logger = logging.getLogger("arview")
 
 
def json_deserializer(s, **kw):
    if isinstance(s, bytes):
        return json_loads(s.decode('utf-8'), **kw)
 
    else:
        return json_loads(s, **kw)
 
 
def get_sqlalchemy_engine(db_url):
    if db_url not in SQLALCHEMY_ENGINE_CONTAINER:
        engine = create_engine(db_url, echo=CONF.db.echo,
                               # pool_pre_ping如果值为True,那么每次从连接池中拿连接的时候,都会向数据库发送一个类似
                               # select 1的测试查询语句来判断服务器是否正常运行。当该连接出现disconnect的情况时,
                               # 该连接连同pool中的其它连接都会被回收
                               pool_pre_ping=True,
                               echo_pool=CONF.db.echo_pool,
                               pool_size=CONF.db.pool_size,
                               pool_recycle=CONF.db.pool_recycle,
                               json_deserializer=json_deserializer,
                               poolclass=QueuePool)
        logger.info('Create sqlalchemy engine %s', engine)
        SQLALCHEMY_ENGINE_CONTAINER[db_url] = engine
 
    return SQLALCHEMY_ENGINE_CONTAINER[db_url]

这里引用配置文件的数据,直接引入CONF

from confg import CONF

然后使用

CONF.db.echo_pool

创建句柄,

 与我之前使用的方法不同的是,这里的数据库引擎不需要在使用的地方引入了,会在main里注册路由分组时,通过plugin插件自动将数据库引擎导入。这也是我有点搞不懂的地方,虽然更方便,但是不知道就很难知道了,问了同事才知道是怎么回事。

bottle源码

def install(self, plugin):
    ''' Add a plugin to the list of plugins and prepare it for being
        applied to all routes of this application. A plugin may be a simple
        decorator or an object that implements the :class:`Plugin` API.
    '''

plugin就是相当与golang的中间件,不过作用范围是全部路由。

这里创建数据库句柄并使用是一个比较绕的过程。总体思路:

1.写一个bottle plugin,创建数据库句柄,然后install安装这个plugin。就可以在所有的路由中自动引入这个插件(就是不用在包里在导入db句柄了,bottle会自动导入)。

/common/base.py 创建plugin并安装

import logging
from bottle import Bottle
from confg.conf import CONF
from sqlalchemy import create_engine
from sqlalchemy.orm import sessionmaker, scoped_session
from db.models.base import Base as ApiModelBase
from common.utils.sqlalchemy_util import get_sqlalchemy_engine
from bottle_sqlalchemy import SQLAlchemyPlugin
 
logger = logging.getLogger("arview")
base = ApiModelBase  # sqlalchemy orm base class
 
 
class Plugins:
    SQLALCHEMY_PLUGIN = None  # sqlalchemy plugin, global only one instance
    APSCHEDULER_PLUGIN = None  # apsechduler plugin. global only one instance
 
 
class Base(object):
    def __init__(self, *args, **kwargs):
        logger.debug('>>>> Base init begin')
        self.app = Bottle()
        # self.app.install(SwaggerPlugin(self._type))
 
        logger.debug('>>>> Base init end')
 
 
class DB(Base):
    def __init__(self, db_url, create=None, commit=None, *args, **kwargs):
        print('db_url:', db_url)
        super(DB, self).__init__(*args, **kwargs)
 
        if create is None:
            create = CONF.db.create
        if commit is None:
            commit = CONF.db.commit
 
        if Plugins.SQLALCHEMY_PLUGIN is None:
            Plugins.SQLALCHEMY_PLUGIN = _create_sqlalchemy_plugin(db_url, create=create, commit=commit)
        self.app.install(Plugins.SQLALCHEMY_PLUGIN)
        logger.debug("Install plugin: sqlalchemy.")
        # if CONF.api.enable_request_interval_plugin:
        #     self.app.install(RequestTimeIntervalPlugin())
        logger.debug('>>>> DB init end')
 
 
class CommonBase(object):
    def __init__(self):
        self._db = None
 
    @property
    def db(self):
        if not self._db:
            DBURL = "mysql+mysqlconnector://{}:{}@{}:{}/{}?charset=utf8".format(CONF.mysql.DbUser,
                                                                                CONF.mysql.DbPassWord,
                                                                                CONF.mysql.DbHost,
                                                                                CONF.mysql.DbPort,
                                                                                CONF.mysql.DbName)
            engine = create_engine(DBURL, echo=False)
            self._db = sessionmaker()(bind=engine)
        return self._db
 
    @db.deleter
    def db(self):
        if self._db:
            self._db.commit()
            self._db.close()
            self._db = None
 
 
def _create_sqlalchemy_plugin(db_url, create, commit):
    """
    创建sqlalchemy插件
    :param db_url:
    :param echo:
    :param create:
    :param commit:
    :return:
    """
 
    logger.debug('>>>> create sqlalchemy plugin begin')
    engine = get_sqlalchemy_engine(db_url)
    plugin = SQLAlchemyPlugin(engine, metadata=ApiModelBase.metadata, create=create, commit=commit, use_kwargs=True)
    logger.debug('>>>> create sqlalchemy plugin %s' % plugin)
    return plugin

最后使用

/api/user.py

import logging
 
from bottle import request
 
from common.base import DB
from api.service.user import UserService
 
logger = logging.getLogger("arview")
 
 
class User(DB, UserService):
 
    def __init__(self, *args, **kwargs):
        print(">>> User init begin")
        logging.debug('>>> User init begin')
        super(User, self).__init__(*args, **kwargs)
        self.dispatch()
        logger.debug('>>> User init end')
 
    def create(self, db=None):
        create_body = request.json
        create_data = self.create_user(create_body, db)
        return create_data
 
    def delete(self, db=None):
        delete_body = request.json
        delete_data = self.delete_user(delete_body, db)
        return delete_data
 
    def list(self, db=None):
 
        list_data = self.list_user(db)
        return list_data
 
    def dispatch(self):
        self.app.route('/listUser', method='post')(self.list)
        self.app.route('/createUser', method='post')(self.create)
        self.app.route('/deleteUser', method='post')(self.delete)

这里的db就不需要导入了,可以直接使用。

db层
主要是模型层 /db/model/user.py

from sqlalchemy import Column, String, Enum, TIMESTAMP, Boolean, Integer, BIGINT, DATETIME
 
from db.models.base import Base
 
 
class UserModel(Base):
    __tablename__ = "user"
    id = Column("id", BIGINT, primary_key=True, comment="用户id")
    created_at = Column("created_at", DATETIME, comment="创建时间")
    updated_at = Column("updated_at", DATETIME, comment="更新时间")
    deleted_at = Column("deleted_at", DATETIME, comment="删除时间")
    username = Column("username", String(20), comment="用户名")
    password = Column("password", String(500), comment="密码")
    role = Column("role", BIGINT, comment="角色")
 
    def __init__(self, id, created_at, updated_at, deleted_at, username, password, role):
        self.id = id
        self.created_at = created_at
        self.updated_at = updated_at
        self.deleted_at = deleted_at
        self.username = username
        self.password = password
        self.role = role

/db/model/base.py

from datetime import datetime
 
from sqlalchemy import Column, TIMESTAMP
from sqlalchemy.ext.declarative import declarative_base
 
 
# sqlalchemy orm base class
Base = declarative_base()
 
 
class TimestampMixin(object):
    """为ORM提供时间戳基类"""
 
    created_at = Column('created_at', TIMESTAMP(True), default=datetime.now,
                        comment=u"创建时间")
    updated_at = Column('updated_at', TIMESTAMP(True), default=datetime.now,
                        onupdate=datetime.now, comment=u"更新时间")

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