背景:看了博主一抹浅笑的rest_framework认证模板,发现登录视图函数是基于APIView类封装。
优化:使用ModelViewSet类通过重写create方法编写登录函数。
环境:既然接触到rest_framework的使用,相信已经搭建好相关环境了。

1 建立模型

编写模型类

# models.py
from django.db import models
class User(models.Model):
    username = models.CharField(verbose_name='用户名称',unique=True,max_length=16)
    password = models.CharField(verbose_name='登陆密码',max_length=16)
class Token(models.Model):
    username = models.CharField(verbose_name='用户名称',unique=True,max_length=16)
    token = models.CharField(verbose_name='验证密钥',max_length=32)

生成迁移文件

python manage.py makemigrations

迁移数据模型

python manage.py migrate

2 确定需要重写的方法

查看ModelViewSet类源码

'''
class ModelViewSet(mixins.CreateModelMixin,
                   mixins.RetrieveModelMixin,
                   mixins.UpdateModelMixin,
                   mixins.DestroyModelMixin,
                   mixins.ListModelMixin,
                   GenericViewSet):
    """
    A viewset that provides default `create()`, `retrieve()`, `update()`,
    `partial_update()`, `destroy()` and `list()` actions.
    """
    pass
'''

最终目的是往Token模型对应的表添加数据,所以得选择CreateModelMixin模型的源码查看。

'''
class CreateModelMixin:
    """
    Create a model instance.
    """
    def create(self, request, *args, **kwargs):
        serializer = self.get_serializer(data=request.data)
        serializer.is_valid(raise_exception=True)
        self.perform_create(serializer)
        headers = self.get_success_headers(serializer.data)
        return Response(serializer.data, status=status.HTTP_201_CREATED, headers=headers)

    def perform_create(self, serializer):
        serializer.save()

    def get_success_headers(self, data):
        try:
            return {'Location': str(data[api_settings.URL_FIELD_NAME])}
        except (TypeError, KeyError):
            return {}
'''

查看得知,CreateModelMixin类下的create方法调用了serializer类的save方法创建数据。继续查看save方法。
通过serializers.ModelSerializer定位到serializers.py文件,搜索'def save('定位到以下内容。

'''
    def save(self, **kwargs):
        assert hasattr(self, '_errors'), (
            'You must call `.is_valid()` before calling `.save()`.'
        )

        assert not self.errors, (
            'You cannot call `.save()` on a serializer with invalid data.'
        )

        # Guard against incorrect use of `serializer.save(commit=False)`
        assert 'commit' not in kwargs, (
            "'commit' is not a valid keyword argument to the 'save()' method. "
            "If you need to access data before committing to the database then "
            "inspect 'serializer.validated_data' instead. "
            "You can also pass additional keyword arguments to 'save()' if you "
            "need to set extra attributes on the saved model instance. "
            "For example: 'serializer.save(owner=request.user)'.'"
        )

        assert not hasattr(self, '_data'), (
            "You cannot call `.save()` after accessing `serializer.data`."
            "If you need to access data before committing to the database then "
            "inspect 'serializer.validated_data' instead. "
        )

        validated_data = {**self.validated_data, **kwargs}

        if self.instance is not None:
            self.instance = self.update(self.instance, validated_data)
            assert self.instance is not None, (
                '`update()` did not return an object instance.'
            )
        else:
            self.instance = self.create(validated_data)
            assert self.instance is not None, (
                '`create()` did not return an object instance.'
            )
'''

看最后这个if……else……语句中的self.instance = self.create(validated_data)。
说明这里调用了create方法,返回一个模型对象。于是查看ModelSerializer类的create方法。

'''
    def create(self, validated_data):
        """
        We have a bit of extra checking around this in order to provide
        descriptive messages when something goes wrong, but this method is
        essentially just:

            return ExampleModel.objects.create(**validated_data)

        If there are many to many fields present on the instance then they
        cannot be set until the model is instantiated, in which case the
        implementation is like so:

            example_relationship = validated_data.pop('example_relationship')
            instance = ExampleModel.objects.create(**validated_data)
            instance.example_relationship = example_relationship
            return instance

        The default implementation also does not handle nested relationships.
        If you want to support writable nested relationships you'll need
        to write an explicit `.create()` method.
        """
        raise_errors_on_nested_writes('create', self, validated_data)

        ModelClass = self.Meta.model

        # Remove many-to-many relationships from validated_data.
        # They are not valid arguments to the default `.create()` method,
        # as they require that the instance has already been saved.
        info = model_meta.get_field_info(ModelClass)
        many_to_many = {}
        for field_name, relation_info in info.relations.items():
            if relation_info.to_many and (field_name in validated_data):
                many_to_many[field_name] = validated_data.pop(field_name)

        try:
            instance = ModelClass._default_manager.create(**validated_data)
        except TypeError:
            tb = traceback.format_exc()
            msg = (
                'Got a `TypeError` when calling `%s.%s.create()`. '
                'This may be because you have a writable field on the '
                'serializer class that is not a valid argument to '
                '`%s.%s.create()`. You may need to make the field '
                'read-only, or override the %s.create() method to handle '
                'this correctly.\nOriginal exception was:\n %s' %
                (
                    ModelClass.__name__,
                    ModelClass._default_manager.name,
                    ModelClass.__name__,
                    ModelClass._default_manager.name,
                    self.__class__.__name__,
                    tb
                )
            )
            raise TypeError(msg)

        # Save many-to-many relationships after the instance is created.
        if many_to_many:
            for field_name, value in many_to_many.items():
                field = getattr(instance, field_name)
                field.set(value)

        return instance
'''

这逻辑我是没看懂,但是通过print、type、dir函数可以确定
接收对象validated_data是一个字典,
返回对象instance是一个模型对象。
于是可以把源码cv过来,简单测试是否能够通。

import time
import hashlib

from rest_framework import status
from rest_framework import serializers
from rest_framework.response import Response
from rest_framework.viewsets import ModelViewSet

from myapp import models as myapp_models

class TokenSerializer(serializers.ModelSerializer):
    class Meta:
        model = myapp_models.Token
        fields = '__all__'
    def create(self,validated_data):
        ######################################
        query_obj = myapp_models.Token.objects.update_or_create(
            username=validated_data['username'],
            defaults={"username":validated_data['username'],"token":validated_data['token']})[0]
        print(query_obj)
        return query_obj
        #------------------------------------#
class LoginView(ModelViewSet):
    queryset = myapp_models.Token.objects.all()
    serializer_class = TokenSerializer
    def create(self, request, *args, **kwargs):
        serializer = self.get_serializer(data=request.data)
        serializer.is_valid(raise_exception=True)
        self.perform_create(serializer)
        headers = self.get_success_headers(serializer.data)
        return Response(serializer.data, status=status.HTTP_201_CREATED, headers=headers)

3 重写create方法

3.1 编写登录逻辑

TokenSerializer
1.获取username和password。
2.验证username、password匹配性。
3.匹配错误:更新或创建模型中username对应的token为空字符串,返回模型对象。
4.匹配正确:通过md5加密生成token,更新或创建模型中username对应的token为密钥。
ModelViewSet
1.根据username查询token值。
2.将username、token值设置到session会话。

import time
import hashlib

from rest_framework import status
from rest_framework import serializers
from rest_framework.response import Response
from rest_framework.viewsets import ModelViewSet

from myapp import models as myapp_models

class TokenSerializer(serializers.ModelSerializer):
    class Meta:
        model = myapp_models.Token
        fields = '__all__'
    def create(self,validated_data):
        ######################################
        user_obj = myapp_models.User.objects.filter(
            username=validated_data['username'],
            password=validated_data['token'])
        user_dict = validated_data
        user_dict['token'] = ''
        if not user_obj.exists():
            query_obj = myapp_models.Token.objects.update_or_create(
                username=user_dict['username'],
                defaults={"username":user_dict['username'],"token":user_dict['token']})[0]
            return query_obj
        validated_data['token'] = hashlib.md5(
            ''.format(time.time(),''.join(validated_data.values())).encode()).hexdigest()
        query_obj = myapp_models.Token.objects.update_or_create(
            username=validated_data['username'],
            defaults={"username":validated_data['username'],"token":validated_data['token']})[0]
        print(query_obj)
        return query_obj
        #------------------------------------#
class LoginView(ModelViewSet):
    queryset = myapp_models.Token.objects.all()
    serializer_class = TokenSerializer
    def create(self, request, *args, **kwargs):
        serializer = self.get_serializer(data=request.data)
        serializer.is_valid(raise_exception=True)
        self.perform_create(serializer)
        headers = self.get_success_headers(serializer.data)
        ######################################
        token_obj = myapp_models.Token.objects.filter(
            username=request.POST.get('username')).first()
        if token_obj.token == '':
            request.session['username'] = token_obj.username
            request.session['token'] = token_obj.token
            return Response('检查输入的账户和密码')
        request.session['username'] = token_obj.username
        request.session['token'] = token_obj.token
        #------------------------------------#
        return Response(serializer.data, status=status.HTTP_201_CREATED, headers=headers)

3.2 编写认证逻辑

1.从session中获取username,token。
2.判断username,token是否不存在、或token是否为空字符串。
3.判断正确:抛出异常。
4.判断错误:范围username和模型对象组成的元组。

from rest_framework import exceptions
from rest_framework.authentication import BaseAuthentication

from myapp import models as myapp_models

class Authentication(BaseAuthentication):
    def authenticate(self,request):
        ######################################
        username = request._request.session.get('username','')
        token = request._request.session.get('token','')
        token_obj = myapp_models.Token.objects.filter(
            username=username,token=token)
        if not token_obj.exists or token_obj.first().token == '':
            raise exceptions.AuthenticationFailed('认证失败')
        return (token_obj.first().username,token_obj.first())
        #------------------------------------#

3.3 添加路由

path('login/',myapp_views.LoginView.as_view({
        'post':'create'}),name='login')

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