爬虫:利用selenium采集某某环境网站的空气质量数据
前言:在上一篇文章中,我们介绍了在PM2.5.in这个网站采集空气质量的数据,本篇文章是对其产生的一些问题的另一种解决方案,提供更加权威的数据采集。
技术框架:selenium、json、etree
这里的selenium是一种自动化测试的工具,它可以帮助我们模拟浏览器打开网页并获取网页数据,本文之所以选择这种方式进行,是因为以requests方式直接请求无法获取到正确的数据,这个网页的数据是动态加载,需要用户执行点击操作才会被请求
我们还是按照常规套路来分析下这个网站,打开F12,看下这个网站的数据请求
可以发现这个网站的数据的请求接口,但当我们直接用requests去请求这个接口,会发现无法获取正确的数据,原因是这个网站采用了MmEwMD这个值进行了反爬虫,这个是一个比较常见的反爬虫措施,他这个值是在发起请求时动态生成的,最简单的解决这个问题的办法就是采用selenium之类的模拟浏览器方法进行请求,这样的话,发出的请求也会自动带上这个参数
请求的代码如下图所示
driverPath = 'browser\\chromedriver.exe'
options = webdriver.ChromeOptions()
options.add_experimental_option("excludeSwitches", ["enable-automation"])
options.add_experimental_option('useAutomationExtension', False)
# options.add_argument(('--proxy-server=http://' + ip))
browser = webdriver.Chrome(options=options, executable_path=driverPath)
browser.execute_cdp_cmd("Page.addScriptToEvaluateOnNewDocument", {
"source": """
Object.defineProperty(navigator, 'webdriver', {
get: () => undefined
})
"""
})
browser.get(self.url)
html = browser.page_source
browser.quit()
# print(html)
reponse = etree.HTML(html)
data = reponse.xpath('//body/text()')[0]
json_data = json.loads(data)我们通过调用谷歌浏览器直接请求对应的页面,获取到数据后,关闭浏览器,通过etree解析网页结果,通过观察发现,我们获取到的数据是json数组,因此我们使用json解析数据,然后将对应的数据存储到数据库
result_list = json_data['data']['hour']
print(result_list)
for result in result_list:
item = dict()
item['affect'] = result['AFFECTINFO']
item['action'] = result['SUGGEST']
if('AQIPRIMPOLLUTE' in result):
item['primary_pollutant'] = result['AQIPRIMPOLLUTE']
else:
item['primary_pollutant'] = '无'
item['AQI'] = result['AQI']
item['PM2.5/1h'] = result['PM25']
item['PM10/1h'] = result['PM10']
item['CO/1h'] = result['CO']
item['NO2/1h'] = result['NO2']
item['O3/1h'] = result['O3']
item['O3/8h'] = result['O3_2']
item['SO2/1h'] = result['SO2']
item['city_name'] = result['POINTNAME']
item['level'] = result['CODEAQILEVEL']+'('+result['AQILEVELNAME']+')'
item['live_data_time'] = result['MONITORTIME']
item['live_data_time'] = datetime.datetime.strptime(item['live_data_time'], "%Y年%m月%d日%H")
update_time = item['live_data_time'].strftime('%Y-%m-%d %H:%M:%S')
item['live_data_unit'] = 'μg/m3(CO为mg/m3)'
if(item['city_name'] in city_config):
self.save_mysql(item)
success_count = success_count+1
log_text = '采集的城市:{},采集的结果:{}'.format(item['city_name'],'成功')
self.save_log({'log_type':'0','log_text':log_text})
self.save_log({'log_type':'3','log_text':log_text})
self.update_spider_time(update_time)
# 存储运行日志
def save_log(self,item):
sql = 'INSERT INTO log(log_text,log_type,created_time) VALUES (%s,%s,%s)'
values = [item['log_text'],item['log_type'],datetime.datetime.now()]
self.cursor.execute(sql,values)
self.conn.commit()
def save_mysql(self,item):
# 查询数据库已存在的数据
query_sql = 'select count(1) as count from kongqizhiliang where city_name= %s and live_data_time = %s'
values = [item['city_name'],item['live_data_time']]
self.cursor.execute(query_sql,values)
data = self.cursor.fetchone()
# 如果不存在同一城市同一时刻更新的数据,则新增
if(data['count'] == 0):
sql = ("INSERT kongqizhiliang(city_name,level,live_data_time,live_data_unit,AQI,PM25_1h,PM10_1h,CO_1h"
",NO2_1h,O3_1h,O3_8h,SO2_1h,affect,primary_pollutant,action"
") VALUES (%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s)")
values =[item['city_name'],item['level'],item['live_data_time'],item['live_data_unit'],item['AQI']
,item['PM2.5/1h'],item['PM10/1h'],item['CO/1h'],item['NO2/1h'],item['O3/1h'],item['O3/8h']
,item['SO2/1h'],item['affect'],item['primary_pollutant'],item['action']]
self.cursor.execute(sql,values)
self.conn.commit()其实当初这个反爬虫措施也困扰了我一段时间的,我这里采用的是最简单的方法解决,虽然效率不高,但能解决我的需求
完整代码如下:其中部分代码是可以不需要的,必须redis和config那个,你们自己改一下,不会的可以问我,这个是当时给别人毕设做的,还有其他功能,所以会有一些其他的
"""
采集空气质量的数据
目标网站:http://sthjt.hubei.gov.cn/hjsj/
"""
import requests
from lxml import etree
import re
from xpinyin import Pinyin
import pymysql
import sys
from settings.config import *
from utils import RedisUtil
import datetime
import json
from selenium import webdriver
class kongqizhiliang:
DEFAULT_REQUEST_HEADERS = {
'Accept': 'text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8',
'Accept-Language': 'en',
'User-Agent':'Mozilla/5.0 (Windows NT 10.0; WOW64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/63.0.3239.132 Safari/537.36'
}
url = 'http://sthjt.hubei.gov.cn/wcmapi/service/aqi.xhtml'
redis_key = 'kongqi:config_city'
update_time = 'kongqi:update_time'
# 汉字转拼音
pinyin = Pinyin()
def __init__(self):
self.conn = pymysql.connect(host=host, port=port, user=user, passwd=passwd, db=db, charset=charset)
self.cursor = self.conn.cursor(cursor=pymysql.cursors.DictCursor)
# 将城市名转化为code
def get_code(self,city_name):
return self.pinyin.get_pinyin(city_name, '' )
def get_city_config(self):
redis_util = RedisUtil.get_redis()
city_list = redis_util.list_get_range(self.redis_key)
return city_list
def update_spider_time(self,update_time):
redis_util = RedisUtil.get_redis()
redis_util.str_set(self.update_time,update_time)
def get_data(self):
city_config = self.get_city_config()
log_text = '采集开始,准备采集的城市:{},计划采集的数据量:{}'.format(city_config,len(city_config))
self.save_log({'log_type':'2','log_text':log_text})
success_count = 0
update_time = ''
driverPath = 'browser\\chromedriver.exe'
options = webdriver.ChromeOptions()
options.add_experimental_option("excludeSwitches", ["enable-automation"])
options.add_experimental_option('useAutomationExtension', False)
# options.add_argument(('--proxy-server=http://' + ip))
browser = webdriver.Chrome(options=options, executable_path=driverPath)
browser.execute_cdp_cmd("Page.addScriptToEvaluateOnNewDocument", {
"source": """
Object.defineProperty(navigator, 'webdriver', {
get: () => undefined
})
"""
})
browser.get(self.url)
html = browser.page_source
browser.quit()
# print(html)
reponse = etree.HTML(html)
data = reponse.xpath('//body/text()')[0]
json_data = json.loads(data)
# print(json_data)
result_list = json_data['data']['hour']
print(result_list)
for result in result_list:
item = dict()
item['affect'] = result['AFFECTINFO']
item['action'] = result['SUGGEST']
if('AQIPRIMPOLLUTE' in result):
item['primary_pollutant'] = result['AQIPRIMPOLLUTE']
else:
item['primary_pollutant'] = '无'
item['AQI'] = result['AQI']
item['PM2.5/1h'] = result['PM25']
item['PM10/1h'] = result['PM10']
item['CO/1h'] = result['CO']
item['NO2/1h'] = result['NO2']
item['O3/1h'] = result['O3']
item['O3/8h'] = result['O3_2']
item['SO2/1h'] = result['SO2']
item['city_name'] = result['POINTNAME']
item['level'] = result['CODEAQILEVEL']+'('+result['AQILEVELNAME']+')'
item['live_data_time'] = result['MONITORTIME']
item['live_data_time'] = datetime.datetime.strptime(item['live_data_time'], "%Y年%m月%d日%H")
update_time = item['live_data_time'].strftime('%Y-%m-%d %H:%M:%S')
item['live_data_unit'] = 'μg/m3(CO为mg/m3)'
if(item['city_name'] in city_config):
self.save_mysql(item)
success_count = success_count+1
log_text = '采集的城市:{},采集的结果:{}'.format(item['city_name'],'成功')
self.save_log({'log_type':'0','log_text':log_text})
self.save_log({'log_type':'3','log_text':log_text})
self.update_spider_time(update_time)
# 存储运行日志
def save_log(self,item):
sql = 'INSERT INTO log(log_text,log_type,created_time) VALUES (%s,%s,%s)'
values = [item['log_text'],item['log_type'],datetime.datetime.now()]
self.cursor.execute(sql,values)
self.conn.commit()
def save_mysql(self,item):
# 查询数据库已存在的数据
query_sql = 'select count(1) as count from kongqizhiliang where city_name= %s and live_data_time = %s'
values = [item['city_name'],item['live_data_time']]
self.cursor.execute(query_sql,values)
data = self.cursor.fetchone()
# 如果不存在同一城市同一时刻更新的数据,则新增
if(data['count'] == 0):
sql = ("INSERT kongqizhiliang(city_name,level,live_data_time,live_data_unit,AQI,PM25_1h,PM10_1h,CO_1h"
",NO2_1h,O3_1h,O3_8h,SO2_1h,affect,primary_pollutant,action"
") VALUES (%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s)")
values =[item['city_name'],item['level'],item['live_data_time'],item['live_data_unit'],item['AQI']
,item['PM2.5/1h'],item['PM10/1h'],item['CO/1h'],item['NO2/1h'],item['O3/1h'],item['O3/8h']
,item['SO2/1h'],item['affect'],item['primary_pollutant'],item['action']]
self.cursor.execute(sql,values)
self.conn.commit()
if __name__ == "__main__":
app = kongqizhiliang()
app.get_data()
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