ASJServer/Controller/IotCoreController.py

#!/usr/bin/env python3
# -*- coding: utf-8 -*-
import os
import hashlib
import json
import time
import uuid
import boto3
import requests

from django.views import View
from Ansjer.config import BASE_DIR
from base64 import b64encode, encodebytes
from Controller.DeviceConfirmRegion import Device_Region
from Model.models import Device_User, Device_Info, iotdeviceInfoModel, UIDCompanySerialModel, \
    SerialNumberModel
from Object.IOTCore.IotObject import IOTClient
from Object.ResponseObject import ResponseObject
from Object.TokenObject import TokenObject
from Service.CommonService import CommonService

import OpenSSL.crypto as ct


class IotCoreView(View):

    def get(self, request, *args, **kwargs):
        request.encoding = 'utf-8'
        request_dict = request.GET
        operation = kwargs.get('operation', None)
        return self.validate(operation, request_dict, request)

    def post(self, request, *args, **kwargs):
        request.encoding = 'utf-8'
        request_dict = request.POST
        operation = kwargs.get('operation', None)
        return self.validate(operation, request_dict, request)

    def validate(self, operation, request_dict, request):
        response = ResponseObject()
        lang = request_dict.get('lang', 'en')
        response.lang = lang
        if operation == 'createKeysAndCertificate':
            return self.create_keys_and_certificate(request_dict, response, request)
        elif operation == 'requestPublishMessage':
            return self.request_publish_message(request_dict, response, request)
        elif operation == 'thingRegroup':
            return self.thing_regroup(request_dict, response, request)
        else:
            token = TokenObject(request_dict.get('token', None))
            if token.code != 0:
                return response.json(token.code)
            response.lang = token.lang

            if operation == 'clearIotCerm':
                return self.clear_Iot_Cerm(request_dict, response)
            else:
                return response.json(404)

    # CVM注册  ：正使用
    def create_keys_and_certificate(self, request_dict, response, request):
        uid = request_dict.get('uid', '')
        token = request_dict.get('token', None)
        uid_code = request_dict.get('uid_code', None)
        language = request_dict.get('language', None)
        time_stamp = request_dict.get('time_stamp', None)
        device_version = request_dict.get('device_version', None).replace('.', '_')  # 物品组命名不能包含'.'

        if not all([token, time_stamp, device_version, language]):
            return response.json(444, {'param': 'token, uid_code, time_stamp, device_version, language'})

        # token时间戳校验
        token = int(CommonService.decode_data(token))
        time_stamp = int(time_stamp)
        now_time = int(time.time())
        distance = now_time - time_stamp
        if token != time_stamp or distance > 60000 or distance < -60000:  # 为了全球化时间控制在一天内
            return response.json(404)

        if not uid:
            # 使用序列号
            serial_number = request_dict.get('serial_number', None)
            serial_number_code = request_dict.get('serial_number_code', None)
            if not all([serial_number, serial_number_code]):
                return response.json(444, {'param': 'serial_number, serial_number_code'})

            # 序列号编码解码校验
            serial_number_code = CommonService.decode_data(serial_number_code)
            if serial_number != serial_number_code:
                return response.json(404)

            serial = serial_number[0:6]
            try:
                SerialNumberModel.objects.get(serial_number=serial)
            except:
                return response.json(444)

            ThingNameSuffix = serial_number  # 物品名后缀
            iotdeviceInfo_qs = iotdeviceInfoModel.objects.filter(serial_number=serial)
        else:
            # 使用uid
            # uid编码解码校验
            uid_code = CommonService.decode_data(uid_code)
            if uid != uid_code:
                return response.json(404)

            serial = ''     # iot_deviceInfo表写入serial_number为''
            ThingNameSuffix = uid     # 物品名后缀
            iotdeviceInfo_qs = iotdeviceInfoModel.objects.filter(uid=uid)
        # 判断设备是否已注册证书
        if not iotdeviceInfo_qs.exists():
            thingGroup = device_version + '_' + language
            ip = CommonService.get_ip_address(request)
            region_id = Device_Region().get_device_region(ip)

            iotClient = IOTClient(region_id)
            res = iotClient.create_keys_and_certificate(ThingNameSuffix, thingGroup, response)
            token_iot_number = hashlib.md5((str(uuid.uuid1()) + str(now_time)).encode('utf-8')).hexdigest()

            iotdeviceInfoModel.objects.create(uid=uid,
                                              serial_number=serial,
                                              endpoint=res[0]['endpoint'],
                                              certificate_id=res[0]['certificateId'],
                                              certificate_pem=res[0]['certificatePem'],
                                              public_key=res[0]['publicKey'],
                                              private_key=res[0]['privateKey'],
                                              thing_name=res[1]['ThingName'],
                                              thing_groups=res[1]['thingGroupName'],
                                              token_iot_number=token_iot_number
                                              )
            res = {
                'certificateId': res[0]['certificateId'],
                'certificatePem': res[0]['certificatePem'],
                'publicKey': res[0]['publicKey'],
                'privateKey': res[0]['privateKey'],
                'endpoint': res[0]['endpoint']
            }
            return response.json(0, {'res': res})
        else:
            iot = iotdeviceInfo_qs[0]
            res = {
                'certificateId': iot.certificate_id,
                'certificatePem': iot.certificate_pem,
                'publicKey': iot.public_key,
                'privateKey': iot.private_key,
                'endpoint': iot.endpoint
            }
            # print('此设备已注册证书')
            return response.json(0, {'res': res})

    def thing_regroup(self, request_dict, response, request):
        # 物品重新分组
        uid = request_dict.get('uid', '')
        token = request_dict.get('token', None)
        language = request_dict.get('language', None)
        time_stamp = request_dict.get('time_stamp', None)
        device_version = request_dict.get('device_version', None)

        if not all([token, language, time_stamp, device_version]):
            return response.json(444, {'param: token, language, time_stamp, device_version'})

        # 封装token认证
        token = int(CommonService.decode_data(token))
        time_stamp = int(time_stamp)
        now_time = int(time.time())
        distance = now_time - time_stamp
        if token != time_stamp or distance > 60000 or distance < -60000:  # 为了全球化时间控制在一天内
            return response.json(404)

        ip = CommonService.get_ip_address(request)
        region_id = Device_Region().get_device_region(ip)
        iotClient = IOTClient(region_id)

        ThingNameSuffix = uid
        if not uid:
            # 使用序列号
            serial_number = request_dict.get('serial_number', None)
            if not serial_number:
                return response.json(444)
            ThingNameSuffix = serial_number
        thingName = 'Ansjer_Device_' + ThingNameSuffix
        new_thingGroupName = (device_version + '_' + language).replace('.', '_')  # 物品组命名不能包含'.'

        try:
            # 获取旧物品组
            list_groups_res = iotClient.client.list_thing_groups_for_thing(thingName=thingName, maxResults=1)
            old_thingGroupName = list_groups_res['thingGroups'][0]['groupName']
            # 没有新物品组则创建
            list_thing_groups_res = iotClient.client.list_thing_groups(namePrefixFilter=new_thingGroupName
                                                                       , maxResults=1, recursive=False)
            if not list_thing_groups_res['thingGroups']:
                attributes = {
                    "update_time": "0"
                }
                thingGroupProperties = {
                    "thingGroupDescription": "OTA",
                    "attributePayload": {
                        "attributes": attributes,
                        "merge": False  # 更新时覆盖掉而不是合并
                    }
                }
                iotClient.client.create_thing_group(thingGroupName=new_thingGroupName
                                                    , thingGroupProperties=thingGroupProperties)
            iotClient.client.update_thing_groups_for_thing(thingName=thingName
                                                           , thingGroupsToAdd=[new_thingGroupName]
                                                           , thingGroupsToRemove=[old_thingGroupName])

            # 更新设备版本信息
            if uid:
                Device_Info.objects.filter(UID=uid).update(version=device_version)
            else:
                Device_Info.objects.filter(serial_number=serial_number).update(version=device_version)
            return response.json(0)
        except Exception as e:
            print(e)
            return response.json(500, repr(e))

    def clear_Iot_Cerm(self, userID, request_dict, response):
        serial_number = request_dict.get('serial_number', None)

        if serial_number:

            iot = iotdeviceInfoModel.objects.filter(thing_name="Ansjer_Device_" + serial_number)
            if iot.exists():
                iot.delete()
            return response.json(0)

        else:
            return response.json(444)

    def request_publish_message(self, request_dict, response, request):
        # Alexa请求IoT Core下发MQTT消息
        UID = request_dict.get('UID', None)
        MSG = request_dict.get('MSG', None)

        if not all([UID, MSG]):
            return response.json(444)

        try:
            # 获取检查uid的序列号,如果没有序列号,不使用MQTT下发消息
            device_info_qs = Device_Info.objects.filter(UID=UID).values('UID', 'serial_number')
            if not device_info_qs.exists():
                return response.json(10043)
            uid = device_info_qs[0]['UID']
            serial_number = device_info_qs[0]['serial_number']
            # 如果device_info表的serial_number不为空,物品名为'Ansjer_Device_序列号'
            ThingNameSuffix = serial_number if serial_number != '' else uid

            thing_name = ThingNameSuffix
            # 获取数据组织将要请求的url
            iot = iotdeviceInfoModel.objects.filter(thing_name__contains=thing_name).values('thing_name', 'endpoint',
                                                                                            'token_iot_number')
            if not iot.exists():
                return response.json(10043)
            thing_name = iot[0]['thing_name'][14:]  # IoT core上的物品名: Ansjer_Device_ + 序列号+企业编码/uid
            endpoint = iot[0]['endpoint']
            Token = iot[0]['token_iot_number']
            # Token = '297a601b3925e04daab5a60280650e09'
            topic_name = thing_name + '_rtsp_topic'     # MQTT主题

            # rtsp://rtsp.zositech.org:8554/ZFdqWldXRFpMTkVaYVZEaEJXRXhUV0RFeE1VRT1B
            # api doc: https://docs.aws.amazon.com/zh_cn/iot/latest/developerguide/http.html
            # https://IoT_data_endpoint/topics/url_encoded_topic_name?qos=1
            # post请求url来发布MQTT消息
            url = 'https://{}/topics/{}'.format(endpoint, topic_name)
            authorizer_name = 'Ansjer_Iot_Auth'
            signature = self.rsa_sign(Token)  # Token签名
            headers = {'x-amz-customauthorizer-name': authorizer_name, 'Token': Token,
                       'x-amz-customauthorizer-signature': signature}
            params = {'rtsp_command': MSG}
            r = requests.post(url=url, headers=headers, json=params, timeout=2)
            if r.status_code == 200:
                res = r.json()
                if res['message'] == 'OK':
                    return response.json(0)
                return response.json(10044)
            else:
                # print('发布失败')
                return response.json(10044)
        except Exception as e:
            # print(e)
            return response.json(500, repr(e))

    def rsa_sign(self, Token):
        # 私钥签名Token
        private_key_file = '''-----BEGIN RSA PRIVATE KEY-----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-----END RSA PRIVATE KEY-----'''
        # 使用密钥文件方式
        # private_key_file_path = os.path.join(BASE_DIR, 'static/iotCore/private.pem')#.replace('\\', '/')
        # private_key_file = open(private_key_file_path, 'r')
        private_key = ct.load_privatekey(ct.FILETYPE_PEM, private_key_file)
        signature = ct.sign(private_key, Token.encode('utf8'), 'sha256')
        signature = encodebytes(signature).decode('utf8').replace('\n', '')
        # print('signature:', signature)
        return signature