许多人都喜爱网抑云,其一有歌曲,还有就是它的评论,下面的评论有些是鸡汤,有些直击心灵,反正许多给我的是一种丧的感觉,废话不多说,先来剖析一波。
在这里我搜寻的歌是天下,这还是那些老操作,就不多说了,在这里咱们能够看到它的 url,在它的 headers 中
https://music.163.com/weapi/c…
同时你也会发现你一直刷新,它的 Form Data 中的 encSecKey 与
params 是在一直变动,并且是被加密过的,那咱们就要找到它的加密过程了
在这里咱们复制一下 encSeckey, 当然也能够抉择 params,但会发现 encSeckey 是更简略的。
咱们点击 Sources, 右击 top 进行全局搜寻就好了。不要复制我这里的,复制浏览器里的。
咱们点 92 那个就好了,你也能够点 90 那个,其实都一样,不过不要点 vip…… 那个文件里的,
能够看到 inittiator 中文件都是 core…….,所以咱们这里点 core….. 文件中的,而后咱们会看到这样的界面
咱们点一下那个红色外面的括号,而后会看到上面的图,而后咱们就 crtl+ f 一下,再把 encSecKey 复制就会主动搜寻咱们想要的字符
咱们能够看到有 3 个该字符,那个 2 of 3 中 3 代表有几个,2 代表是第二个,在这里咱们能够看到 params 与 enseckey 两个参数。
var bZj7c = window.asrsea(JSON.stringify(i0x), bkk9b(["流泪", "强"]), bkk9b(YR6L.md), bkk9b(["爱心", "女孩", "惊恐", "大笑"]));
e0x.data = j0x.cr1x({
params: bZj7c.encText,
encSecKey: bZj7c.encSecKey
})
}
咱们能够看到它是由上面代码传入参数,加密进去的,咱们持续找。
var bZj7c = window.asrsea(JSON.stringify(i0x), bkk9b([“ 流泪 ”, “ 强 ”]), bkk9b(YR6L.md), bkk9b([“ 爱心 ”, “ 女孩 ”, “ 惊恐 ”, “ 大笑 ”]));
这里咱们能够找 window.asrsea 这个参数,而后用下面那个 crtl+ f 查找。
会发现 window.asrsea = d
那个 function d 外面有 4 个参数,window.asrsea 也有 4 个参数,这是对应的,咱们能够看到外面有 a(16),b(h.encText, i),b(d,g),c(i,e,f), 这里 b 函数用了 2 次
咱们再找一下这些函数,咱们往上一拉,能够看到 a,b,c3 个函数,它们的参数数量是对应的。
咱们能够看出 a 函数是随机获取 16 位的值,并且在 b,c 函数中会用到,b 函数是用 AES 中的 CBC 加密的,d 位偏移量,e 与 c 别离对应明文与秘钥了,上面会详讲。
对应 c 函数其实是 RSA 加密,绝对好剖析,代码里具体解说
(JSON.stringify(i0x), bkk9b([“ 流泪 ”, “ 强 ”]), bkk9b(YR6L.md)
, bkk9b([“ 爱心 ”, “ 女孩 ”, “ 惊恐 ”, “ 大笑 ”]))
咱们看一下 d 函数中四个参数会发现前面 3 个参数是固定的
红圈中的就是上面的东东
`
YR6L.emj = {
"色": "00e0b",
"流感": "509f6",
"这边": "259df",
"弱": "8642d",
"嘴唇": "bc356",
"亲": "62901",
"开心": "477df",
"呲牙": "22677",
"憨笑": "ec152",
"猫": "b5ff6",
"皱眉": "8ace6",
"幽灵": "15bb7",
"蛋糕": "b7251",
"发怒": "52b3a",
"大哭": "b17a8",
"兔子": "76aea",
"星星": "8a5aa",
"钟情": "76d2e",
"牵手": "41762",
"公鸡": "9ec4e",
"爱意": "e341f",
"禁止": "56135",
"狗": "fccf6",
"亲亲": "95280",
"叉": "104e0",
"礼物": "312ec",
"晕": "bda92",
"呆": "557c9",
"生病": "38701",
"钻石": "14af6",
"拜": "c9d05",
"怒": "c4f7f",
"示爱": "0c368",
"汗": "5b7a4",
"小鸡": "6bee2",
"苦楚": "55932",
"撇嘴": "575cc",
"惶恐": "e10b4",
"口罩": "24d81",
"吐舌": "3cfe4",
"心碎": "875d3",
"怄气": "e8204",
"可恶": "7b97d",
"鬼脸": "def52",
"跳舞": "741d5",
"男孩": "46b8e",
"狞笑": "289dc",
"猪": "6935b",
"圈": "3ece0",
"便便": "462db",
"外星": "0a22b",
"圣诞": "8e7",
"流泪": "01000",
"强": "1",
"爱心": "0CoJU",
"女孩": "m6Qyw",
"惊恐": "8W8ju",
"大笑": "d"
};
YR6L.md = ["色", "流感", "这边", "弱", "嘴唇", "亲", "开心", "呲牙", "憨笑", "猫", "皱眉", "幽灵", "蛋糕", "发怒", "大哭", "兔子", "星星", "钟情", "牵手", "公鸡", "爱意", "禁止", "狗", "亲亲", "叉", "礼物", "晕", "呆", "生病", "钻石", "拜", "怒", "示爱", "汗", "小鸡", "苦楚", "撇嘴", "惶恐", "口罩", "吐舌", "心碎", "怄气", "可恶", "鬼脸", "跳舞", "男孩", "狞笑", "猪", "圈", "便便", "外星", "圣诞"]
}`
咱们发现前面 3 个参数都用到 bkk9b 这个函数,我发现了这个函数
var bkk9b = function(cJj7c) {
var m0x = [];
j0x.bf0x(cJj7c, function(cJi7b) {m0x.push(YR6L.emj[cJi7b])
});
return m0x.join("")
};
其实就是遍历而后,把它们叠合在一起。很容易实现
代码实现:
这里我是仅仅剖析 a,b,c,d 函数,外面用到的一些其余自定义函数看全副代码
在这里咱们要用到 pycryptodomex 库,用一下上面指令就好
pip install pycryptodomex
首先是 a 函数,这个依据 js 文件中还原就好,没有什么难度
`
def a(slef, n=16):
b = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"
c = ""
for i in range(n):
e = random.random() * len(b)
e = math.floor(e)
c += b[e]
return c
对于 b 函数,这里的明文要转换为 16 字节,并且那个秘钥(key)与偏移量(iv)要变成 16 位数的, 想晓得更具体能够百度
def AES_encrypt(self, text, key, iv):
# 须要将 data 转换为 byte 再来做填充,否则中文特殊字符等会报错
pad = lambda data: data + (16 - len(data.encode('utf-8')) % 16) * chr(16 - len(data.encode('utf-8')) % 16)
data = pad(text)
encryptor = AES.new(key=self.to_16(key), mode=AES.MODE_CBC, iv=self.to_16(iv))
encrypt_aes = encryptor.encrypt(data.encode('utf-8'))
encrypt_text = base64.encodebytes(encrypt_aes)
enctext = encrypt_text.decode('utf-8')
return enctext
对于 c 函数,没有什么好说的,百度一下就晓得了,用的是 RSA 加密。
def RSA_encrypt(self, text, pubKey, modulus):
text = text[::-1]
rs = int(codecs.encode(text.encode('utf-8'), 'hex_codec'), 16) ** int(pubKey, 16) % int(modulus, 16)
return format(rs, 'x').zfill(256)
对于 c 函数
def d(self):
data = {}
iv = "0102030405060708" # 偏移量
g = self.fixed_parameter(["爱心", "女孩", "惊恐", "大笑"]) # key
i = self.a()
#h 获取 params
encText = str(self.dict)
encText = self.AES_encrypt(encText, g, iv)
params = self.AES_encrypt(encText, i, iv)
data['params'] = params
#获取 encSecKey
b = self.fixed_parameter(["流泪", "强"])
c = self.fixed_parameter(
["色", "流感", "这边", "弱", "嘴唇", "亲", "开心", "呲牙", "憨笑", "猫", "皱眉", "幽灵", "蛋糕", "发怒", "大哭", "兔子", "星星", "钟情",
"牵手", "公鸡", "爱意", "禁止", "狗", "亲亲", "叉", "礼物", "晕", "呆", "生病", "钻石", "拜", "怒", "示爱", "汗", "小鸡", "苦楚", "撇嘴",
"惶恐", "口罩", "吐舌", "心碎", "怄气", "可恶", "鬼脸", "跳舞", "男孩", "狞笑", "猪", "圈", "便便", "外星", "圣诞"])
encSecKey = self.RSA_encrypt(i, b, c)
data['encSecKey'] = encSecKey
return data`
这个就是 encSecKey 与 params 的加密。这里的 encSecKey 其实始终是 256 位,而 params 位数会因为申请的货色不同而位数不同。咱们能够用咱们解析进去的 python 函数进行模仿加密比照,看输入的看位数以及模式,我感觉是很无效的。我用的是 pycharm,可能输入的位数多 4 到 8,那是因为换行符占位。
你会发现我 d 函数中有这样一个代码
encText = str(self.dict)
这个 self.dict 是什么呢,其实这个咱们能够打断点调试进去,上面是我做的 1 视频,能够看一下怎么搞,因为电脑无录屏软件,我就用手机录的视频。
csrf_token: “”
hlposttag: “</span>”
hlpretag: “<span class=”s-fc7″>”
limit: “30”
offset: “0”
s: “ 天下 ”
total: “true”
type: “1
通过屡次寻找,dict 就是它了,这里我说一下,在寻找评论,歌词时的 dict 也是这样找的,缓缓调试,它们能够调试进去的。然而对于评论爬取多页时会发现找到了 dict, 然而始终 print 反复的,那是因为 offset 这个也存在变动,这个咱们能够用 Fiddler 进行输入,会用到浏览器中的 console,这个我临时没空搞,想晓得的能够百度。
全副代码:
`
import base64
import codecs
import math
import time
import wordcloud
import random
from Cryptodome.Cipher import AES
import requests
class GetArgs():
def __init__(self, dict):
self.dict = dict
def fixed_parameter(self, list):
dic = {
"色": "00e0b",
"流感": "509f6",
"这边": "259df",
"弱": "8642d",
"嘴唇": "bc356",
"亲": "62901",
"开心": "477df",
"呲牙": "22677",
"憨笑": "ec152",
"猫": "b5ff6",
"皱眉": "8ace6",
"幽灵": "15bb7",
"蛋糕": "b7251",
"发怒": "52b3a",
"大哭": "b17a8",
"兔子": "76aea",
"星星": "8a5aa",
"钟情": "76d2e",
"牵手": "41762",
"公鸡": "9ec4e",
"爱意": "e341f",
"禁止": "56135",
"狗": "fccf6",
"亲亲": "95280",
"叉": "104e0",
"礼物": "312ec",
"晕": "bda92",
"呆": "557c9",
"生病": "38701",
"钻石": "14af6",
"拜": "c9d05",
"怒": "c4f7f",
"示爱": "0c368",
"汗": "5b7a4",
"小鸡": "6bee2",
"苦楚": "55932",
"撇嘴": "575cc",
"惶恐": "e10b4",
"口罩": "24d81",
"吐舌": "3cfe4",
"心碎": "875d3",
"怄气": "e8204",
"可恶": "7b97d",
"鬼脸": "def52",
"跳舞": "741d5",
"男孩": "46b8e",
"狞笑": "289dc",
"猪": "6935b",
"圈": "3ece0",
"便便": "462db",
"外星": "0a22b",
"圣诞": "8e7",
"流泪": "01000",
"强": "1",
"爱心": "0CoJU",
"女孩": "m6Qyw",
"惊恐": "8W8ju",
"大笑": "d"
}
c = ""
for key in list:
c = c + dic[key]
return c
# 转成 16 位数
def to_16(self, key):
while len(key) % 16 != 0:
key += '\0'
return key.encode('utf-8')
# 对应 a 函数
def a(slef, n=16):
b = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"
c = ""
for i in range(n):
e = random.random() * len(b)
e = math.floor(e)
c += b[e]
return c
# 对应 js 函数的 b 函数
def AES_encrypt(self, text, key, iv):
# 须要将 data 转换为 byte 再来做填充,否则中文特殊字符等会报错
pad = lambda data: data + (16 - len(data.encode('utf-8')) % 16) * chr(16 - len(data.encode('utf-8')) % 16)
data = pad(text)
encryptor = AES.new(key=self.to_16(key), mode=AES.MODE_CBC, iv=self.to_16(iv))
encrypt_aes = encryptor.encrypt(data.encode('utf-8'))
encrypt_text = base64.encodebytes(encrypt_aes)
enctext = encrypt_text.decode('utf-8')
return enctext
# 对应 js 函数中的 c 函数
def RSA_encrypt(self, text, pubKey, modulus):
text = text[::-1]
rs = int(codecs.encode(text.encode('utf-8'), 'hex_codec'), 16) ** int(pubKey, 16) % int(modulus, 16)
return format(rs, 'x').zfill(256)
#d 函数
def d(self):
data = {}
iv = "0102030405060708" # 偏移量
g = self.fixed_parameter(["爱心", "女孩", "惊恐", "大笑"]) # key
i = self.a()
encText = str(self.dict)
encText = self.AES_encrypt(encText, g, iv)
params = self.AES_encrypt(encText, i, iv)
data['params'] = params
b = self.fixed_parameter(["流泪", "强"])
c = self.fixed_parameter(
["色", "流感", "这边", "弱", "嘴唇", "亲", "开心", "呲牙", "憨笑", "猫", "皱眉", "幽灵", "蛋糕", "发怒", "大哭", "兔子", "星星", "钟情",
"牵手", "公鸡", "爱意", "禁止", "狗", "亲亲", "叉", "礼物", "晕", "呆", "生病", "钻石", "拜", "怒", "示爱", "汗", "小鸡", "苦楚", "撇嘴",
"惶恐", "口罩", "吐舌", "心碎", "怄气", "可恶", "鬼脸", "跳舞", "男孩", "狞笑", "猪", "圈", "便便", "外星", "圣诞"])
encSecKey = self.RSA_encrypt(i, b, c)
data['encSecKey'] = encSecKey
return data
class Music():
def __init__(self):
self.url = 'https://music.163.com/weapi/cloudsearch/get/web?csrf_token='
self.headers = {
'Accept-Encoding': 'gzip, deflate, br',
'Accept-Language': 'zh-CN,zh;q=0.9',
'User-Agent': 'Mozilla/5.0 (Macintosh; Intel Mac OS X 10_10_1) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/39.0.2171.95 Safari/537.36',
'Accept': '*/*',
'Referer': 'https://music.163.com/search/',
'Connection': 'keep-alive',
'cookie': '_iuqxldmzr_=32; _ntes_nnid=2c2050b762a20bec42d44b4ec9570db2,1596545803404; _ntes_nuid=2c2050b762a20bec42d44b4ec9570db2; WM_TID=P%2B9S%2BGxp32pBVAVRRQZqCt7Cgd%2BGver%2B; NMTID=00OeaJw_6w3Xsbamkk4mtz6A4aQ648AAAF0w8UCbA; WM_NI=uJgfo1tpOzmOzCi1zZbOYbXBDNPDlNewZXU3yQ3iumqfEggri%2BRhKdTEiIHOU2SXI3IuFjOG%2FKSi%2FAeBDlsY02AdcF3eDGC7oT5jbtTM7WD72FNddwZuZ8YelJFmI76NRXY%3D; WM_NIKE=9ca17ae2e6ffcda170e2e6eeb6f0659a86fca5cc6093928fa6d14e968e9eaeb547898f8190d24686b7a0a7cb2af0fea7c3b92ab796a987ee3bb8b0819bf045ba9da7d2f952a2919783db4a8892a0a5ef46a7a996b9d839bb8ffd8af867b3ba8b88e67aabf59e89ca70989ba7aacb4597ee9db9cc398bab8a8bce4ded959d8aae4ba79e8c8df253f4ee8f85e24ef1bb8ca8c23dad8cfb8be1809893f9b8c73df29a8285e77d9aab96d9dc6fb0968a8ecc3df6929eb9dc37e2a3; JSESSIONID-WYYY=C1rSDXpSvPOpS%2FNHFyKe%5Cw3yY4%2F5bq5ntcfQ2QEqxSCJxkrD1%5CYeJdAGWIQmJpUIY5%5CtjA3S%2FrCedOHlKjFkPy5X4Eje7wt%2BHzgrcVRV%2BmXMRO8G%5CsxeUd9MBwwvqzIuEbuJkpv9mv6bCvQBzI9bI1qQl8WnFzFvy5Z0SqVeIAGYexqB%3A1601034012504'
}
def search(self):
song_name = input("请输出歌曲名:")
song_dict = {'csrf_token': "",'hlposttag':'<span class="s-fc7">','limit':'30','offset':'0','s':'{}'.format(song_name),'total':'true','type':'1'}
d = GetArgs(song_dict)
data = d.d()
reponse = requests.post(url=self.url, headers=self.headers, data=data)
dict = reponse.json()
music_list = dict['result']['songs']
self.select(music_list,song_name)
def select(self, music_list,song_name):
i = 0
for music in music_list:
print(i, music['name'], music['ar'][0]['name'], end='\n')
i += 1
num = int(input('请输出序号:'))
id = music_list[num]['id']
ids = music_list[num]['privilege']['id']
singer_name = music_list[num]['ar'][0]['name']
self.get_lyric(id,singer_name,song_name)
print('正在爬取评论')
self.get_comments(id,singer_name,song_name)
print('评论爬取胜利')
print('正在下载歌曲')
self.download_song(ids,singer_name,song_name)
print('全副实现')
def download_song(self,ids,singer_name,song_name):
url='https://music.163.com/weapi/song/enhance/player/url/v1?csrf_token='
dict = {'csrf_token': "",'encodeType':"aac",'ids':"[{}]".format(ids),'level':"standard"}
d = GetArgs(dict)
data = d.d()
headers = {'User-Agent': 'Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/85.0.4183.121 Safari/537.36',
'origin': 'https://music.163.com',
'referer':'https://music.163.com/',
}
download_headers={'User-Agent': 'Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/85.0.4183.121 Safari/537.36',
}
#获取下载链接
response = requests.post(url=url,headers=headers,data=data)
json = response.json()
download_url = json['data'][0]['url']
#下载歌曲
download_response = requests.get(url=download_url,headers=download_headers)
content = download_response.content
name = song_name+'+'+singer_name+'.m4a'
with open(name, 'wb') as f:
f.write(content)
print("歌曲下载胜利!")
def get_comments(self, id,singer_name,song_name):
def save_png():
name = song_name + ' ' + singer_name
path = name+'.text'
with open(path,'r',encoding='UTF-8') as f:
c=f.read()
w = wordcloud.WordCloud(width=1000,height=700,background_color='white',font_path='msyh.ttc')
png_path = name+'.png'
w.generate(c)
w.to_file(png_path)
def save_text(c):
name = song_name + ' ' + singer_name
text_path = name+'.text'
with open(text_path,mode='a', encoding='UTF-8') as f:
f.write(c)
url = 'https://music.163.com/weapi/comment/resource/comments/get?csrf_token='
headers = {
'Accept-Encoding': 'gzip, deflate, br',
'Accept-Language': 'zh-CN,zh;q=0.9',
'User-Agent': 'Mozilla/5.0 (Macintosh; Intel Mac OS X 10_10_1) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/39.0.2171.95 Safari/537.36',
'Accept': '*/*',
'Referer': 'https://music.163.com/song?id={}'.format(id),
'Connection': 'keep-alive',
'cookie': '_iuqxldmzr_=32; _ntes_nnid=2c2050b762a20bec42d44b4ec9570db2,1596545803404; _ntes_nuid=2c2050b762a20bec42d44b4ec9570db2; WM_TID=P%2B9S%2BGxp32pBVAVRRQZqCt7Cgd%2BGver%2B; NMTID=00OeaJw_6w3Xsbamkk4mtz6A4aQ648AAAF0w8UCbA; WM_NI=uJgfo1tpOzmOzCi1zZbOYbXBDNPDlNewZXU3yQ3iumqfEggri%2BRhKdTEiIHOU2SXI3IuFjOG%2FKSi%2FAeBDlsY02AdcF3eDGC7oT5jbtTM7WD72FNddwZuZ8YelJFmI76NRXY%3D; WM_NIKE=9ca17ae2e6ffcda170e2e6eeb6f0659a86fca5cc6093928fa6d14e968e9eaeb547898f8190d24686b7a0a7cb2af0fea7c3b92ab796a987ee3bb8b0819bf045ba9da7d2f952a2919783db4a8892a0a5ef46a7a996b9d839bb8ffd8af867b3ba8b88e67aabf59e89ca70989ba7aacb4597ee9db9cc398bab8a8bce4ded959d8aae4ba79e8c8df253f4ee8f85e24ef1bb8ca8c23dad8cfb8be1809893f9b8c73df29a8285e77d9aab96d9dc6fb0968a8ecc3df6929eb9dc37e2a3; JSESSIONID-WYYY=C1rSDXpSvPOpS%2FNHFyKe%5Cw3yY4%2F5bq5ntcfQ2QEqxSCJxkrD1%5CYeJdAGWIQmJpUIY5%5CtjA3S%2FrCedOHlKjFkPy5X4Eje7wt%2BHzgrcVRV%2BmXMRO8G%5CsxeUd9MBwwvqzIuEbuJkpv9mv6bCvQBzI9bI1qQl8WnFzFvy5Z0SqVeIAGYexqB%3A1601034012504'
}
dict = {'csrf_token': "",'cursor':"-1",'offset':"0",'orderType':"1",'pageNo':"1",'pageSize':"20",'rid':"R_SO_4_{}".format(id),'threadId':"R_SO_4_{}".format(id)}
for page in range(1, 9):
d = GetArgs(dict)
data = d.d()
c=''
if page != 1:
cursor = self.timestamp_13() #13 位工夫戳
dict['cursor'] = cursor
dict['offset'] = str((page - 1) * 20)
dict['pageNo'] = str(page)
response = requests.post(url=url, headers=headers, data=data)
json = response.json()
if page == 1:
print('正在爬取第 {} 页评论'.format(page))
try:
comments_list = json['data']['hotComments']
# print(comments_list)
for i in comments_list:
c=i['content']
save_text(c)
print(i['content'])
except:
print('无评论!!!!!!!')
else:
print('正在爬取第 {} 页评论'.format(page))
try:
comments_list = json['data']['comments']
# print(comments_list)
for i in comments_list:
c=i['content']
save_text(c)
print(i['content'])
except:
print('无评论')
save_png()
def get_lyric(self, id,song_name,singer_name):
def save_text(c):
name = song_name + ' ' + singer_name
text_path = name+'lyric.text'
with open(text_path,mode='a', encoding='UTF-8') as f:
f.write(c)
url = 'https://music.163.com/weapi/song/lyric?csrf_token='
headers = {
'Accept-Encoding': 'gzip, deflate, br',
'Accept-Language': 'zh-CN,zh;q=0.9',
'User-Agent': 'Mozilla/5.0 (Macintosh; Intel Mac OS X 10_10_1) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/39.0.2171.95 Safari/537.36',
'Accept': '*/*',
'Referer': 'https://music.163.com/song?id={}'.format(id),
'origin': 'https://music.163.com',
'Connection': 'keep-alive',
'cookie': '_iuqxldmzr_=32; _ntes_nnid=2c2050b762a20bec42d44b4ec9570db2,1596545803404; _ntes_nuid=2c2050b762a20bec42d44b4ec9570db2; WM_TID=P%2B9S%2BGxp32pBVAVRRQZqCt7Cgd%2BGver%2B; NMTID=00OeaJw_6w3Xsbamkk4mtz6A4aQ648AAAF0w8UCbA; WM_NI=uJgfo1tpOzmOzCi1zZbOYbXBDNPDlNewZXU3yQ3iumqfEggri%2BRhKdTEiIHOU2SXI3IuFjOG%2FKSi%2FAeBDlsY02AdcF3eDGC7oT5jbtTM7WD72FNddwZuZ8YelJFmI76NRXY%3D; WM_NIKE=9ca17ae2e6ffcda170e2e6eeb6f0659a86fca5cc6093928fa6d14e968e9eaeb547898f8190d24686b7a0a7cb2af0fea7c3b92ab796a987ee3bb8b0819bf045ba9da7d2f952a2919783db4a8892a0a5ef46a7a996b9d839bb8ffd8af867b3ba8b88e67aabf59e89ca70989ba7aacb4597ee9db9cc398bab8a8bce4ded959d8aae4ba79e8c8df253f4ee8f85e24ef1bb8ca8c23dad8cfb8be1809893f9b8c73df29a8285e77d9aab96d9dc6fb0968a8ecc3df6929eb9dc37e2a3; JSESSIONID-WYYY=C1rSDXpSvPOpS%2FNHFyKe%5Cw3yY4%2F5bq5ntcfQ2QEqxSCJxkrD1%5CYeJdAGWIQmJpUIY5%5CtjA3S%2FrCedOHlKjFkPy5X4Eje7wt%2BHzgrcVRV%2BmXMRO8G%5CsxeUd9MBwwvqzIuEbuJkpv9mv6bCvQBzI9bI1qQl8WnFzFvy5Z0SqVeIAGYexqB%3A1601034012504'
}
dict = {"id": "{}".format(id), "lv": -1, "tv": -1, "csrf_token": ""}
d = GetArgs(dict)
data = d.d()
response = requests.post(url=url, headers=headers, data=data)
json = response.json()
try:
lrc = json['lrc']
lyric = lrc['lyric']
save_text(lyric)
print(lyric)
except:
print('该歌曲为纯音乐!')
def timestamp_13(self):
timestamp_13 = round(time.time() * 1000)
return str(timestamp_13)
music = Music()
music.search()`
我展现一下我爬取的一个歌曲 ——- 绿色:
词云图:
局部评论:
歌词:这里我说一下,这个括号的是歌词对应工夫,我优酷想搞个播放器,让对工夫显示对应歌词。
文章起源:Biaofun 标梵互动(https://www.biaofun.com/)