class CreateItem:
def __init__(self):
self._db = MysqlDB()
self._create_init = CreateInit()
def select_columns(self, table_name):
# sql = 'SHOW COLUMNS FROM ' + table_name
sql = "SELECT COLUMN_NAME, COLUMN_TYPE, IS_NULLABLE, COLUMN_DEFAULT, EXTRA, COLUMN_KEY, COLUMN_COMMENT FROM INFORMATION_SCHEMA.Columns WHERE table_name = '{}'".format(
table_name)
columns = self._db.find(sql)
return columns
def select_tables_name(self, tables_name):
"""
@summary:
---------
@param tables_name: 一类tables 如 qidian*
---------
@result:
"""
sql = (
"select table_name from information_schema.tables where table_name like '%s'"
% tables_name)
tables_name = self._db.find(sql)
return tables_name
def convert_table_name_to_hump(self, table_name):
"""
@summary: 格式化表明为驼峰格式
---------
@param table:
---------
@result:
"""
table_hump_format = ""
words = table_name.split("_")
for word in words:
table_hump_format += word.capitalize() # 首字母大写
return table_hump_format
def get_item_template(self):
template_path = os.path.abspath(
os.path.join(__file__, "../../../templates/item_template.tmpl"))
with open(template_path, "r", encoding="utf-8") as file:
item_template = file.read()
return item_template
def create_item(self, item_template, columns, table_name, support_dict):
table_name_hump_format = self.convert_table_name_to_hump(table_name)
# 组装 类名
item_template = item_template.replace("${item_name}",
table_name_hump_format)
if support_dict:
item_template = item_template.replace("${table_name}",
table_name + " 1")
else:
item_template = item_template.replace("${table_name}", table_name)
# 组装 属性
propertys = ""
for column in columns:
column_name = column[0]
column_type = column[1]
is_nullable = column[2]
column_default = column[3]
column_extra = column[4]
column_key = column[5]
column_comment = column[6]
try:
value = ("kwargs.get('{column_name}')".format(
column_name=column_name) if support_dict else
(column_default != "CURRENT_TIMESTAMP"
and column_default or None) and eval(column_default))
except:
value = ("kwargs.get('{column_name}')".format(
column_name=column_name) if support_dict else
(column_default != "CURRENT_TIMESTAMP"
and column_default or None) and column_default)
if column_extra == "auto_increment" or column_default is not None:
propertys += (
"# self.{column_name} = {value} # type : {column_type} | allow_null : {is_nullable} | key : {column_key} | default_value : {column_default} | extra : {column_extra} | column_comment : {column_comment}"
.format(
column_name=column_name,
value=value,
column_type=column_type,
is_nullable=is_nullable,
column_key=column_key,
column_default=column_default,
column_extra=column_extra,
column_comment=column_comment,
) + "\n" + " " * 8)
else:
if value is None or isinstance(value,
(float, int)) or support_dict:
propertys += (
"self.{column_name} = {value} # type : {column_type} | allow_null : {is_nullable} | key : {column_key} | default_value : {column_default} | extra : {column_extra}| column_comment : {column_comment}"
.format(
column_name=column_name,
value=value,
column_type=column_type,
is_nullable=is_nullable,
column_key=column_key,
column_default=column_default,
column_extra=column_extra,
column_comment=column_comment,
) + "\n" + " " * 8)
else:
propertys += (
"self.{column_name} = '{value}' # type : {column_type} | allow_null : {is_nullable} | key : {column_key} | default_value : {column_default} | extra : {column_extra}| column_comment : {column_comment}"
.format(
column_name=column_name,
value=value,
column_type=column_type,
is_nullable=is_nullable,
column_key=column_key,
column_default=column_default,
column_extra=column_extra,
column_comment=column_comment,
) + "\n" + " " * 8)
item_template = item_template.replace("${propertys}",
propertys.strip())
item_template = deal_file_info(item_template)
return item_template
def save_template_to_file(self, item_template, table_name):
item_file = table_name + "_item.py"
if os.path.exists(item_file):
confirm = input("%s 文件已存在 是否覆盖 (y/n). " % item_file)
if confirm != "y":
print("取消覆盖 退出")
return
with open(item_file, "w", encoding="utf-8") as file:
file.write(item_template)
print("\n%s 生成成功" % item_file)
self._create_init.create()
def create(self, tables_name, support_dict):
input_tables_name = tables_name
tables_name = self.select_tables_name(tables_name)
if not tables_name:
print(tables_name)
tip = "mysql数据库中无 %s 表 " % input_tables_name
raise KeyError(tip)
for table_name in tables_name:
table_name = table_name[0]
columns = self.select_columns(table_name)
item_template = self.get_item_template()
item_template = self.create_item(item_template, columns,
table_name, support_dict)
self.save_template_to_file(item_template, table_name)
class LoginCookiePool(CookiePoolInterface):
"""
需要登陆的cookie池, 用户账号密码等信息用mysql保存
"""
def __init__(
self,
redis_key,
*,
table_userbase,
login_state_key="login_state",
lock_state_key="lock_state",
username_key="username",
password_key="password",
login_retry_times=10,
):
"""
@param redis_key: 项目名
@param table_userbase: 用户表名
@param login_state_key: 登录状态列名
@param lock_state_key: 封锁状态列名
@param username_key: 登陆名列名
@param password_key: 密码列名
@param login_retry_times: 登陆失败重试次数
"""
self._tab_cookie_pool = "{}:l_cookie_pool".format(redis_key)
self._login_retry_times = login_retry_times
self._table_userbase = table_userbase
self._login_state_key = login_state_key
self._lock_state_key = lock_state_key
self._username_key = username_key
self._password_key = password_key
self._redisdb = RedisDB()
self._mysqldb = MysqlDB()
self.create_userbase()
def create_userbase(self):
sql = f"""
CREATE TABLE IF NOT EXISTS `{self._table_userbase}` (
`id` int(10) unsigned NOT NULL AUTO_INCREMENT,
`{self._username_key}` varchar(50) DEFAULT NULL COMMENT '用户名',
`{self._password_key}` varchar(255) DEFAULT NULL COMMENT '密码',
`{self._login_state_key}` int(11) DEFAULT '0' COMMENT '登录状态(0未登录 1已登录)',
`{self._lock_state_key}` int(11) DEFAULT '0' COMMENT '账号是否被封(0 未封 1 被封)',
PRIMARY KEY (`id`),
UNIQUE KEY `username` (`username`) USING BTREE
) ENGINE=InnoDB DEFAULT CHARSET=utf8mb4;
"""
self._mysqldb.execute(sql)
def create_cookie(self, username, password):
"""
创建cookie
@param username: 用户名
@param password: 密码
@return: return cookie / None
"""
raise NotImplementedError
def get_user_info(self):
"""
返回用户信息
@return: yield username, password
"""
sql = "select {username_key}, {password_key} from {table_userbase} where {lock_state_key} != 1 and {login_state_key} != 1".format(
username_key=self._username_key,
password_key=self._password_key,
table_userbase=self._table_userbase,
lock_state_key=self._lock_state_key,
login_state_key=self._login_state_key,
)
return self._mysqldb.find(sql)
def handle_login_failed_user(self, username, password):
"""
处理登录失败的user
@param username:
@param password:
@return:
"""
pass
def handel_exception(self, e):
"""
处理异常
@param e:
@return:
"""
log.exception(e)
def save_cookie(self, username, cookie):
user_cookie = {"username": username, "cookie": cookie}
self._redisdb.lpush(self._tab_cookie_pool, user_cookie)
sql = "update {table_userbase} set {login_state_key} = 1 where {username_key} = '{username}'".format(
table_userbase=self._table_userbase,
login_state_key=self._login_state_key,
username_key=self._username_key,
username=username,
)
self._mysqldb.update(sql)
def get_cookie(self, wait_when_null=True) -> User:
while True:
try:
user_cookie = self._redisdb.rpoplpush(self._tab_cookie_pool)
if not user_cookie and wait_when_null:
log.info("暂无cookie 生产中...")
self.login()
continue
if user_cookie:
user_cookie = eval(user_cookie)
return User(**user_cookie)
return None
except Exception as e:
log.exception(e)
tools.delay_time(1)
def del_cookie(self, user: User):
"""
删除失效的cookie
@param user:
@return:
"""
user_info = {"username": user.username, "cookie": user.cookie}
self._redisdb.lrem(self._tab_cookie_pool, user_info)
sql = "update {table_userbase} set {login_state_key} = 0 where {username_key} = '{username}'".format(
table_userbase=self._table_userbase,
login_state_key=self._login_state_key,
username_key=self._username_key,
username=user.username,
)
self._mysqldb.update(sql)
def user_is_locked(self, user: User):
sql = "update {table_userbase} set {lock_state_key} = 1 where {username_key} = '{username}'".format(
table_userbase=self._table_userbase,
lock_state_key=self._lock_state_key,
username_key=self._username_key,
username=user.username,
)
self._mysqldb.update(sql)
def run(self):
with RedisLock(
key=self._tab_cookie_pool, lock_timeout=3600, wait_timeout=100
) as _lock:
if _lock.locked:
user_infos = self.get_user_info()
if not isinstance(user_infos, Iterable):
raise ValueError("get_user_info 返回值必须可迭代")
if not user_infos:
log.info("无可用用户")
for username, password in user_infos:
for i in range(self._login_retry_times):
try:
cookie = self.create_cookie(username, password)
if cookie:
self.save_cookie(username, cookie)
else:
self.handle_login_failed_user(username, password)
break
except Exception as e:
self.handel_exception(e)
else:
self.handle_login_failed_user(username, password)
login = run
class BatchSpider(BatchParser, Scheduler):
def __init__(
self,
task_table,
batch_record_table,
batch_name,
batch_interval,
task_keys,
task_state="state",
min_task_count=10000,
check_task_interval=5,
task_limit=10000,
related_redis_key=None,
related_batch_record=None,
task_condition="",
task_order_by="",
redis_key=None,
thread_count=None,
begin_callback=None,
end_callback=None,
delete_keys=(),
auto_stop_when_spider_done=None,
send_run_time=False,
):
"""
@summary: 批次爬虫
必要条件
1、需有任务表
任务表中必须有id 及 任务状态字段 如 state。如指定parser_name字段,则任务会自动下发到对应的parser下, 否则会下发到所有的parser下。其他字段可根据爬虫需要的参数自行扩充
参考建表语句如下:
CREATE TABLE `table_name` (
`id` int(11) NOT NULL AUTO_INCREMENT,
`param` varchar(1000) DEFAULT NULL COMMENT '爬虫需要的抓取数据需要的参数',
`state` int(11) DEFAULT NULL COMMENT '任务状态',
`parser_name` varchar(255) DEFAULT NULL COMMENT '任务解析器的脚本类名',
PRIMARY KEY (`id`),
UNIQUE KEY `nui` (`param`) USING BTREE
) ENGINE=InnoDB AUTO_INCREMENT=1 DEFAULT CHARSET=utf8;
2、需有批次记录表 不存在自动创建
---------
@param task_table: mysql中的任务表
@param batch_record_table: mysql 中的批次记录表
@param batch_name: 批次采集程序名称
@param batch_interval: 批次间隔 天为单位。 如想一小时一批次,可写成1/24
@param task_keys: 需要获取的任务字段 列表 [] 如需指定解析的parser,则需将parser_name字段取出来。
@param task_state: mysql中任务表的任务状态字段
@param min_task_count: redis 中最少任务数, 少于这个数量会从mysql的任务表取任务
@param check_task_interval: 检查是否还有任务的时间间隔;
@param task_limit: 从数据库中取任务的数量
@param redis_key: 任务等数据存放在redis中的key前缀
@param thread_count: 线程数,默认为配置文件中的线程数
@param begin_callback: 爬虫开始回调函数
@param end_callback: 爬虫结束回调函数
@param delete_keys: 爬虫启动时删除的key,类型: 元组/bool/string。 支持正则; 常用于清空任务队列,否则重启时会断点续爬
@param auto_stop_when_spider_done: 爬虫抓取完毕后是否自动结束或等待任务,默认自动结束
@param send_run_time: 发送运行时间
@param related_redis_key: 有关联的其他爬虫任务表(redis)注意:要避免环路 如 A -> B & B -> A 。
@param related_batch_record: 有关联的其他爬虫批次表(mysql)注意:要避免环路 如 A -> B & B -> A 。
related_redis_key 与 related_batch_record 选其一配置即可;用于相关联的爬虫没结束时,本爬虫也不结束
若相关连的爬虫为批次爬虫,推荐以related_batch_record配置,
若相关连的爬虫为普通爬虫,无批次表,可以以related_redis_key配置
@param task_condition: 任务条件 用于从一个大任务表中挑选出数据自己爬虫的任务,即where后的条件语句
@param task_order_by: 取任务时的排序条件 如 id desc
---------
@result:
"""
Scheduler.__init__(
self,
redis_key=redis_key,
thread_count=thread_count,
begin_callback=begin_callback,
end_callback=end_callback,
delete_keys=delete_keys,
auto_stop_when_spider_done=auto_stop_when_spider_done,
auto_start_requests=False,
send_run_time=send_run_time,
batch_interval=batch_interval,
)
self._redisdb = RedisDB()
self._mysqldb = MysqlDB()
self._request_buffer = RequestBuffer(self._redis_key)
self._task_table = task_table # mysql中的任务表
self._batch_record_table = batch_record_table # mysql 中的批次记录表
self._batch_name = batch_name # 批次采集程序名称
self._task_keys = task_keys # 需要获取的任务字段
self._task_state = task_state # mysql中任务表的state字段名
self._min_task_count = min_task_count # redis 中最少任务数
self._check_task_interval = check_task_interval
self._task_limit = task_limit # mysql中一次取的任务数量
self._related_task_tables = [
setting.TAB_REQUSETS.format(redis_key=redis_key)
] # 自己的task表也需要检查是否有任务
if related_redis_key:
self._related_task_tables.append(
setting.TAB_REQUSETS.format(redis_key=related_redis_key))
self._related_batch_record = related_batch_record
self._task_condition = task_condition
self._task_condition_prefix_and = task_condition and " and {}".format(
task_condition)
self._task_condition_prefix_where = task_condition and " where {}".format(
task_condition)
self._task_order_by = task_order_by and " order by {}".format(
task_order_by)
self._batch_date_cache = None
if self._batch_interval >= 1:
self._date_format = "%Y-%m-%d"
elif self._batch_interval < 1 and self._batch_interval >= 1 / 24:
self._date_format = "%Y-%m-%d %H"
else:
self._date_format = "%Y-%m-%d %H:%M"
# 报警相关
self._send_msg_interval = datetime.timedelta(hours=1) # 每隔1小时发送一次报警
self._last_send_msg_time = None
self._spider_last_done_time = None # 爬虫最近已做任务数量时间
self._spider_last_done_count = 0 # 爬虫最近已做任务数量
self._spider_deal_speed_cached = None
self._is_more_parsers = True # 多模版类爬虫
def init_property(self):
"""
每个批次开始时需要重置的属性
@return:
"""
self._last_send_msg_time = None
self._spider_last_done_time = None
self._spider_last_done_count = 0 # 爬虫刚开始启动时已做任务数量
def add_parser(self, parser):
parser = parser(
self._task_table,
self._batch_record_table,
self._task_state,
self._date_format,
self._mysqldb,
) # parser 实例化
self._parsers.append(parser)
def start_monitor_task(self):
"""
@summary: 监控任务状态
---------
---------
@result:
"""
if not self._parsers: # 不是多模版模式, 将自己注入到parsers,自己为模版
self._is_more_parsers = False
self._parsers.append(self)
elif len(self._parsers) <= 1:
self._is_more_parsers = False
self.create_batch_record_table()
# 添加任务
for parser in self._parsers:
parser.add_task()
is_first_check = True
while True:
try:
if self.check_batch(is_first_check): # 该批次已经做完
if not self._auto_stop_when_spider_done:
is_first_check = True
log.info("爬虫所有任务已做完,不自动结束,等待新任务...")
time.sleep(self._check_task_interval)
continue
else:
break
is_first_check = False
# 检查redis中是否有任务 任务小于_min_task_count 则从mysql中取
tab_requests = setting.TAB_REQUSETS.format(
redis_key=self._redis_key)
todo_task_count = self._redisdb.zget_count(tab_requests)
tasks = []
if todo_task_count < self._min_task_count: # 从mysql中取任务
# 更新batch表的任务状态数量
self.update_task_done_count()
log.info("redis 中剩余任务%s 数量过小 从mysql中取任务追加" %
todo_task_count)
tasks = self.get_todo_task_from_mysql()
if not tasks: # 状态为0的任务已经做完,需要检查状态为2的任务是否丢失
if (todo_task_count == 0
): # redis 中无待做任务,此时mysql中状态为2的任务为丢失任务。需重新做
lose_task_count = self.get_lose_task_count()
if not lose_task_count:
time.sleep(self._check_task_interval)
continue
elif (
lose_task_count > self._task_limit * 5
): # 丢失任务太多,直接重置,否则每次等redis任务消耗完再取下一批丢失任务,速度过慢
log.info("正在重置丢失任务为待做 共 {} 条".format(
lose_task_count))
# 重置正在做的任务为待做
if self.reset_lose_task_from_mysql():
log.info("重置丢失任务成功")
else:
log.info("重置丢失任务失败")
continue
else: # 丢失任务少,直接取
log.info("正在取丢失任务 共 {} 条, 取 {} 条".format(
lose_task_count,
self._task_limit
if self._task_limit <= lose_task_count else
lose_task_count,
))
tasks = self.get_doing_task_from_mysql()
else:
log.info("mysql 中取到待做任务 %s 条" % len(tasks))
else:
log.info("redis 中尚有%s条积压任务,暂时不派发新任务" % todo_task_count)
if not tasks:
if todo_task_count >= self._min_task_count:
# log.info('任务正在进行 redis中剩余任务 %s' % todo_task_count)
pass
else:
log.info("mysql 中无待做任务 redis中剩余任务 %s" %
todo_task_count)
else:
# make start requests
self.distribute_task(tasks)
log.info("添加任务到redis成功")
except Exception as e:
log.exception(e)
time.sleep(self._check_task_interval)
def create_batch_record_table(self):
sql = (
"select table_name from information_schema.tables where table_name like '%s'"
% self._batch_record_table)
tables_name = self._mysqldb.find(sql)
if not tables_name:
sql = """
CREATE TABLE `{table_name}` (
`id` int(11) UNSIGNED NOT NULL AUTO_INCREMENT,
`batch_date` {batch_date} DEFAULT NULL COMMENT '批次时间',
`total_count` int(11) DEFAULT NULL COMMENT '任务总数',
`done_count` int(11) DEFAULT NULL COMMENT '完成数 (1,-1)',
`fail_count` int(11) DEFAULT NULL COMMENT '失败任务数 (-1)',
`interval` float(11) DEFAULT NULL COMMENT '批次间隔',
`interval_unit` varchar(20) DEFAULT NULL COMMENT '批次间隔单位 day, hour',
`create_time` datetime DEFAULT CURRENT_TIMESTAMP COMMENT '批次开始时间',
`update_time` datetime DEFAULT CURRENT_TIMESTAMP COMMENT '本条记录更新时间',
`is_done` int(11) DEFAULT '0' COMMENT '批次是否完成 0 未完成 1 完成',
PRIMARY KEY (`id`)
) ENGINE=InnoDB AUTO_INCREMENT=1 DEFAULT CHARSET=utf8;
""".format(
table_name=self._batch_record_table,
batch_date="date"
if self._date_format == "%Y-%m-%d" else "datetime",
)
self._mysqldb.execute(sql)
def distribute_task(self, tasks):
"""
@summary: 分发任务
---------
@param tasks:
---------
@result:
"""
if self._is_more_parsers: # 为多模版类爬虫,需要下发指定的parser
for task in tasks:
for parser in self._parsers: # 寻找task对应的parser
if parser.name in task:
requests = parser.start_requests(task)
if requests and not isinstance(requests, Iterable):
raise Exception("%s.%s返回值必须可迭代" %
(parser.name, "start_requests"))
result_type = 1
for request in requests or []:
if isinstance(request, Request):
request.parser_name = request.parser_name or parser.name
self._request_buffer.put_request(request)
result_type = 1
elif isinstance(request, Item):
self._item_buffer.put_item(request)
result_type = 2
if (self._item_buffer.get_items_count() >=
MAX_ITEM_COUNT):
self._item_buffer.flush()
elif callable(
request): # callbale的request可能是更新数据库操作的函数
if result_type == 1:
self._request_buffer.put_request(request)
else:
self._item_buffer.put_item(request)
if (self._item_buffer.get_items_count() >=
MAX_ITEM_COUNT):
self._item_buffer.flush()
else:
raise TypeError(
"start_requests yield result type error, expect Request、Item、callback func, bug get type: {}"
.format(type(requests)))
break
else: # task没对应的parser 则将task下发到所有的parser
for task in tasks:
for parser in self._parsers:
requests = parser.start_requests(task)
if requests and not isinstance(requests, Iterable):
raise Exception("%s.%s返回值必须可迭代" %
(parser.name, "start_requests"))
result_type = 1
for request in requests or []:
if isinstance(request, Request):
request.parser_name = request.parser_name or parser.name
self._request_buffer.put_request(request)
result_type = 1
elif isinstance(request, Item):
self._item_buffer.put_item(request)
result_type = 2
if self._item_buffer.get_items_count(
) >= MAX_ITEM_COUNT:
self._item_buffer.flush()
elif callable(
request): # callbale的request可能是更新数据库操作的函数
if result_type == 1:
self._request_buffer.put_request(request)
else:
self._item_buffer.put_item(request)
if (self._item_buffer.get_items_count() >=
MAX_ITEM_COUNT):
self._item_buffer.flush()
self._request_buffer.flush()
self._item_buffer.flush()
def __get_task_state_count(self):
sql = "select {state}, count(1) from {task_table}{task_condition} group by {state}".format(
state=self._task_state,
task_table=self._task_table,
task_condition=self._task_condition_prefix_where,
)
task_state_count = self._mysqldb.find(sql)
task_state = {
"total_count":
sum(count for state, count in task_state_count),
"done_count":
sum(count for state, count in task_state_count
if state in (1, -1)),
"failed_count":
sum(count for state, count in task_state_count if state == -1),
}
return task_state
def update_task_done_count(self):
"""
@summary: 更新批次表中的任务状态
---------
---------
@result:
"""
task_count = self.__get_task_state_count()
# log.info('《%s》 批次进度 %s/%s' % (self._batch_name, done_task_count, total_task_count))
# 更新批次表
sql = "update {} set done_count = {}, total_count = {}, fail_count = {}, update_time = CURRENT_TIME, is_done=0, `interval` = {}, interval_unit = '{}' where batch_date = '{}'".format(
self._batch_record_table,
task_count.get("done_count"),
task_count.get("total_count"),
task_count.get("failed_count"),
self._batch_interval
if self._batch_interval >= 1 else self._batch_interval * 24,
"day" if self._batch_interval >= 1 else "hour",
self.batch_date,
)
self._mysqldb.update(sql)
def update_is_done(self):
sql = "update {} set is_done = 1, update_time = CURRENT_TIME where batch_date = '{}' and is_done = 0".format(
self._batch_record_table, self.batch_date)
self._mysqldb.update(sql)
def get_todo_task_from_mysql(self):
"""
@summary: 取待做的任务
---------
---------
@result:
"""
# TODO 分批取数据 每批最大取 1000000个,防止内存占用过大
# 查询任务
sql = "select %s from %s where %s = 0%s%s limit %s" % (
", ".join(self._task_keys),
self._task_table,
self._task_state,
self._task_condition_prefix_and,
self._task_order_by,
self._task_limit,
)
tasks = self._mysqldb.find(sql)
if tasks:
# 更新任务状态
for i in range(0, len(tasks), 10000): # 10000 一批量更新
task_ids = str(tuple([task[0] for task in tasks[i:i + 10000]
])).replace(",)", ")")
sql = "update %s set %s = 2 where id in %s" % (
self._task_table,
self._task_state,
task_ids,
)
self._mysqldb.update(sql)
return tasks
def get_doing_task_from_mysql(self):
"""
@summary: 取正在做的任务
---------
---------
@result:
"""
# 查询任务
sql = "select %s from %s where %s = 2%s%s limit %s" % (
", ".join(self._task_keys),
self._task_table,
self._task_state,
self._task_condition_prefix_and,
self._task_order_by,
self._task_limit,
)
tasks = self._mysqldb.find(sql)
return tasks
def get_lose_task_count(self):
sql = 'select date_format(batch_date, "{date_format}"), total_count, done_count from {batch_record_table} order by id desc limit 1'.format(
date_format=self._date_format.replace(":%M", ":%i"),
batch_record_table=self._batch_record_table,
)
batch_info = self._mysqldb.find(sql) # (('2018-08-19', 49686, 0),)
batch_date, total_count, done_count = batch_info[0]
return total_count - done_count
def reset_lose_task_from_mysql(self):
"""
@summary: 重置丢失任务为待做
---------
---------
@result:
"""
sql = "update {table} set {state} = 0 where {state} = 2{task_condition}".format(
table=self._task_table,
state=self._task_state,
task_condition=self._task_condition_prefix_and,
)
return self._mysqldb.update(sql)
def get_deal_speed(self, total_count, done_count, last_batch_date):
"""
获取处理速度
@param total_count: 总数量
@param done_count: 做完数量
@param last_batch_date: 批次时间 datetime
@return:
deal_speed (条/小时), need_time (秒), overflow_time(秒) ( overflow_time < 0 时表示提前多少秒完成 )
或
None
"""
if not self._spider_last_done_count:
now_date = datetime.datetime.now()
self._spider_last_done_count = done_count
self._spider_last_done_time = now_date
if done_count > self._spider_last_done_count:
now_date = datetime.datetime.now()
time_interval = (now_date -
self._spider_last_done_time).total_seconds()
deal_speed = (done_count -
self._spider_last_done_count) / time_interval # 条/秒
need_time = (total_count - done_count) / deal_speed # 单位秒
overflow_time = (
(now_date - last_batch_date).total_seconds() + need_time -
datetime.timedelta(days=self._batch_interval).total_seconds()
) # 溢出时间 秒
calculate_speed_time = now_date.strftime(
"%Y-%m-%d %H:%M:%S") # 统计速度时间
deal_speed = int(deal_speed * 3600) # 条/小时
# 更新最近已做任务数及时间
self._spider_last_done_count = done_count
self._spider_last_done_time = now_date
self._spider_deal_speed_cached = (
deal_speed,
need_time,
overflow_time,
calculate_speed_time,
)
return self._spider_deal_speed_cached
def init_task(self):
"""
@summary: 初始化任务表中的任务, 新一个批次开始时调用。 可能会重写
---------
---------
@result:
"""
sql = "update {task_table} set {state} = 0 where {state} != -1{task_condition}".format(
task_table=self._task_table,
state=self._task_state,
task_condition=self._task_condition_prefix_and,
)
return self._mysqldb.update(sql)
def check_batch(self, is_first_check=False):
"""
@summary: 检查批次是否完成
---------
@param: is_first_check 是否为首次检查,若首次检查,且检查结果为批次已完成,则不发送批次完成消息。因为之前发送过了
---------
@result: 完成返回True 否则False
"""
sql = 'select date_format(batch_date, "{date_format}"), total_count, done_count from {batch_record_table} order by id desc limit 1'.format(
date_format=self._date_format.replace(":%M", ":%i"),
batch_record_table=self._batch_record_table,
)
batch_info = self._mysqldb.find(sql) # (('2018-08-19', 49686, 0),)
if batch_info:
batch_date, total_count, done_count = batch_info[0]
now_date = datetime.datetime.now()
last_batch_date = datetime.datetime.strptime(
batch_date, self._date_format)
time_difference = now_date - last_batch_date
if total_count == done_count and time_difference < datetime.timedelta(
days=self._batch_interval): # 若在本批次内,再次检查任务表是否有新增任务
# # 改成查询任务表 看是否真的没任务了,因为batch_record表里边的数量可能没来得及更新
task_count = self.__get_task_state_count()
total_count = task_count.get("total_count")
done_count = task_count.get("done_count")
if total_count == done_count:
# 检查相关联的爬虫是否完成
releated_spider_is_done = self.related_spider_is_done()
if releated_spider_is_done == False:
msg = "《{}》本批次未完成, 正在等待依赖爬虫 {} 结束. 批次时间 {} 批次进度 {}/{}".format(
self._batch_name,
self._related_batch_record
or self._related_task_tables,
batch_date,
done_count,
total_count,
)
log.info(msg)
# 检查是否超时 超时发出报警
if time_difference >= datetime.timedelta(
days=self._batch_interval): # 已经超时
if (not self._last_send_msg_time
or now_date - self._last_send_msg_time >=
self._send_msg_interval):
self._last_send_msg_time = now_date
self.send_msg(msg, level="error")
return False
elif releated_spider_is_done == True:
# 更新is_done 状态
self.update_is_done()
else:
self.update_is_done()
msg = "《{}》本批次完成 批次时间 {} 共处理 {} 条任务".format(
self._batch_name, batch_date, done_count)
log.info(msg)
if not is_first_check:
self.send_msg(msg)
# 判断下一批次是否到
if time_difference >= datetime.timedelta(
days=self._batch_interval):
msg = "《{}》下一批次开始".format(self._batch_name)
log.info(msg)
self.send_msg(msg)
# 初始化任务表状态
if self.init_task() != False: # 更新失败返回False 其他返回True/None
# 初始化属性
self.init_property()
is_success = (
self.record_batch()
) # 有可能插入不成功,但是任务表已经重置了,不过由于当前时间为下一批次的时间,检查批次是否结束时不会检查任务表,所以下次执行时仍然会重置
if is_success:
log.info(
"插入新批次记录成功 1分钟后开始下发任务") # 防止work批次时间没来得及更新
tools.delay_time(60)
return False # 下一批次开始
else:
return True # 下一批次不开始。先不派发任务,因为批次表新批次插入失败了,需要插入成功后再派发任务
else:
log.info("《{}》下次批次时间未到".format(self._batch_name))
if not is_first_check:
self.send_msg("《{}》下次批次时间未到".format(self._batch_name))
return True
else:
if time_difference >= datetime.timedelta(
days=self._batch_interval): # 已经超时
time_out = time_difference - datetime.timedelta(
days=self._batch_interval)
time_out_pretty = tools.format_seconds(
time_out.total_seconds())
msg = "《{}》本批次已超时{} 批次时间 {}, 批次进度 {}/{}".format(
self._batch_name,
time_out_pretty,
batch_date,
done_count,
total_count,
)
if self._batch_interval >= 1:
msg += ", 期望时间{}天".format(self._batch_interval)
else:
msg += ", 期望时间{}小时".format(self._batch_interval * 24)
result = self.get_deal_speed(
total_count=total_count,
done_count=done_count,
last_batch_date=last_batch_date,
)
if result:
deal_speed, need_time, overflow_time, calculate_speed_time = (
result)
msg += ", 任务处理速度于{}统计, 约 {}条/小时, 预计还需 {}".format(
calculate_speed_time,
deal_speed,
tools.format_seconds(need_time),
)
if overflow_time > 0:
msg += ", 该批次预计总超时 {}, 请及时处理".format(
tools.format_seconds(overflow_time))
log.info(msg)
if (not self._last_send_msg_time
or now_date - self._last_send_msg_time >=
self._send_msg_interval):
self._last_send_msg_time = now_date
self.send_msg(msg, level="error")
else: # 未超时
remaining_time = (
datetime.timedelta(days=self._batch_interval) -
time_difference)
remaining_time_pretty = tools.format_seconds(
remaining_time.total_seconds())
if self._batch_interval >= 1:
msg = "《{}》本批次正在进行, 批次时间 {}, 批次进度 {}/{}, 期望时间{}天, 剩余{}".format(
self._batch_name,
batch_date,
done_count,
total_count,
self._batch_interval,
remaining_time_pretty,
)
else:
msg = "《{}》本批次正在进行, 批次时间 {}, 批次进度 {}/{}, 期望时间{}小时, 剩余{}".format(
self._batch_name,
batch_date,
done_count,
total_count,
self._batch_interval * 24,
remaining_time_pretty,
)
result = self.get_deal_speed(
total_count=total_count,
done_count=done_count,
last_batch_date=last_batch_date,
)
if result:
deal_speed, need_time, overflow_time, calculate_speed_time = (
result)
msg += ", 任务处理速度于{}统计, 约 {}条/小时, 预计还需 {}".format(
calculate_speed_time,
deal_speed,
tools.format_seconds(need_time),
)
if overflow_time > 0:
msg += ", 该批次可能会超时 {}, 请及时处理".format(
tools.format_seconds(overflow_time))
# 发送警报
if (not self._last_send_msg_time
or now_date - self._last_send_msg_time >=
self._send_msg_interval):
self._last_send_msg_time = now_date
self.send_msg(msg, level="error")
elif overflow_time < 0:
msg += ", 该批次预计提前 {} 完成".format(
tools.format_seconds(-overflow_time))
log.info(msg)
else:
# 插入batch_date
self.record_batch()
# 初始化任务表状态 可能有产生任务的代码
self.init_task()
return False
def related_spider_is_done(self):
"""
相关连的爬虫是否跑完
@return: True / False / None 表示无相关的爬虫 可由自身的total_count 和 done_count 来判断
"""
for related_redis_task_table in self._related_task_tables:
if self._redisdb.exists_key(related_redis_task_table):
return False
if self._related_batch_record:
sql = "select is_done from {} order by id desc limit 1".format(
self._related_batch_record)
is_done = self._mysqldb.find(sql)
is_done = is_done[0][0] if is_done else None
if is_done is None:
log.warning("相关联的批次表不存在或无批次信息")
return None
if not is_done:
return False
return True
def record_batch(self):
"""
@summary: 记录批次信息(初始化)
---------
---------
@result:
"""
# 查询总任务数
sql = "select count(1) from %s%s" % (
self._task_table,
self._task_condition_prefix_where,
)
total_task_count = self._mysqldb.find(sql)[0][0]
batch_date = tools.get_current_date(self._date_format)
sql = (
"insert into %s (batch_date, done_count, total_count, `interval`, interval_unit, create_time) values ('%s', %s, %s, %s, '%s', CURRENT_TIME)"
% (
self._batch_record_table,
batch_date,
0,
total_task_count,
self._batch_interval
if self._batch_interval >= 1 else self._batch_interval * 24,
"day" if self._batch_interval >= 1 else "hour",
))
affect_count = self._mysqldb.add(sql) # None / 0 / 1 (1 为成功)
if affect_count:
# 重置批次日期
self._batch_date_cache = batch_date
# 重新刷下self.batch_date 中的 os.environ.get('batch_date') 否则日期还停留在上一个批次
os.environ["batch_date"] = self._batch_date_cache
# 爬虫开始
self.spider_begin()
self.record_spider_state(
spider_type=2,
state=0,
batch_date=batch_date,
spider_start_time=tools.get_current_date(),
batch_interval=self._batch_interval,
)
else:
log.error("插入新批次失败")
return affect_count
# -------- 批次结束逻辑 ------------
def task_is_done(self):
"""
@summary: 检查任务状态 是否做完 同时更新批次时间 (不能挂 挂了批次时间就不更新了)
---------
---------
@result: True / False (做完 / 未做完)
"""
is_done = False
# 查看批次记录表任务状态
sql = 'select date_format(batch_date, "{date_format}"), total_count, done_count, is_done from {batch_record_table} order by id desc limit 1'.format(
date_format=self._date_format.replace(":%M", ":%i"),
batch_record_table=self._batch_record_table,
)
batch_info = self._mysqldb.find(sql)
if batch_info is None:
raise Exception("查询批次信息失败")
if batch_info:
self._batch_date_cache, total_count, done_count, is_done = batch_info[
0] # 更新self._batch_date_cache, 防止新批次已经开始了,但self._batch_date_cache还是原来的批次时间
log.info("《%s》 批次时间%s 批次进度 %s/%s 完成状态 %d" % (
self._batch_name,
self._batch_date_cache,
done_count,
total_count,
is_done,
))
os.environ[
"batch_date"] = self._batch_date_cache # 更新BatchParser里边的批次时间
if is_done: # 检查任务表中是否有没做的任务 若有则is_done 为 False
# 比较耗时 加锁防止多进程同时查询
with RedisLock(
key=self._spider_name,
timeout=3600,
wait_timeout=0,
redis_cli=RedisDB().get_redis_obj(),
) as lock:
if lock.locked:
log.info("批次表标记已完成,正在检查任务表是否有未完成的任务")
sql = "select 1 from %s where (%s = 0 or %s=2)%s limit 1" % (
self._task_table,
self._task_state,
self._task_state,
self._task_condition_prefix_and,
)
tasks = self._mysqldb.find(sql) # [(1,)] / []
if tasks:
log.info("检测到任务表中有未完成任务,等待任务下发")
is_done = False
# 更新batch_record 表的is_done 状态,减少查询任务表的次数
sql = 'update {batch_record_table} set is_done = 0 where batch_date = "{batch_date}"'.format(
batch_record_table=self._batch_record_table,
batch_date=self._batch_date_cache,
)
self._mysqldb.update(sql)
else:
log.info("任务表中任务均已完成,爬虫结束")
else:
log.info("批次表标记已完成,其他爬虫进程正在检查任务表是否有未完成的任务,本进程跳过检查,继续等待")
is_done = False
return is_done
def run(self):
"""
@summary: 重写run方法 检查mysql中的任务是否做完, 做完停止
---------
---------
@result:
"""
try:
self.create_batch_record_table()
if not self._parsers: # 不是add_parser 模式
self._parsers.append(self)
self._start()
while True:
if (
self.task_is_done() and self.all_thread_is_done()
): # redis全部的任务已经做完 并且mysql中的任务已经做完(检查各个线程all_thread_is_done,防止任务没做完,就更新任务状态,导致程序结束的情况)
if not self._is_notify_end:
self.spider_end()
self.record_spider_state(
spider_type=2,
state=1,
batch_date=self._batch_date_cache,
spider_end_time=tools.get_current_date(),
batch_interval=self._batch_interval,
)
self._is_notify_end = True
if self._auto_stop_when_spider_done:
self._stop_all_thread()
break
else:
self._is_notify_end = False
self.check_task_status()
tools.delay_time(10) # 10秒钟检查一次爬虫状态
except Exception as e:
msg = "《%s》主线程异常 爬虫结束 exception: %s" % (self._batch_name, e)
log.error(msg)
self.send_msg(msg)
os._exit(137) # 使退出码为35072 方便爬虫管理器重启
@classmethod
def to_DebugBatchSpider(cls, *args, **kwargs):
# DebugBatchSpider 继承 cls
DebugBatchSpider.__bases__ = (cls, )
DebugBatchSpider.__name__ = cls.__name__
return DebugBatchSpider(*args, **kwargs)
class NormalUserPool(UserPoolInterface):
"""
普通用户池,适用于账号成本低且大量的场景
"""
def __init__(
self,
redis_key,
*,
table_userbase,
login_state_key="login_state",
lock_state_key="lock_state",
username_key="username",
password_key="password",
login_retry_times=1,
keep_alive=False,
):
"""
@param redis_key: 项目名
@param table_userbase: 用户表名
@param login_state_key: 登录状态列名
@param lock_state_key: 封锁状态列名
@param username_key: 登陆名列名
@param password_key: 密码列名
@param login_retry_times: 登陆失败重试次数
@param keep_alive: 是否保持常驻,以便user不足时立即补充
"""
self._tab_user_pool = setting.TAB_USER_POOL.format(
redis_key=redis_key, user_type="normal"
)
self._login_retry_times = login_retry_times
self._table_userbase = table_userbase
self._login_state_key = login_state_key
self._lock_state_key = lock_state_key
self._username_key = username_key
self._password_key = password_key
self._keep_alive = keep_alive
self._users_id = []
self._redisdb = RedisDB()
self._mysqldb = MysqlDB()
self._create_userbase()
def _load_users_id(self):
self._users_id = self._redisdb.hkeys(self._tab_user_pool)
if self._users_id:
random.shuffle(self._users_id)
def _get_user_id(self):
if not self._users_id:
self._load_users_id()
if self._users_id:
return self._users_id.pop()
def _create_userbase(self):
sql = f"""
CREATE TABLE IF NOT EXISTS `{self._table_userbase}` (
`id` int(10) unsigned NOT NULL AUTO_INCREMENT,
`{self._username_key}` varchar(50) DEFAULT NULL COMMENT '用户名',
`{self._password_key}` varchar(255) DEFAULT NULL COMMENT '密码',
`{self._login_state_key}` int(11) DEFAULT '0' COMMENT '登录状态(0未登录 1已登录)',
`{self._lock_state_key}` int(11) DEFAULT '0' COMMENT '账号是否被封(0 未封 1 被封)',
PRIMARY KEY (`id`),
UNIQUE KEY `username` (`username`) USING BTREE
) ENGINE=InnoDB DEFAULT CHARSET=utf8mb4;
"""
self._mysqldb.execute(sql)
def _load_user(self) -> Iterable[NormalUser]:
"""
返回用户信息
@return: yield username, password
"""
sql = "select id, {username_key}, {password_key} from {table_userbase} where {lock_state_key} != 1 and {login_state_key} != 1".format(
username_key=self._username_key,
password_key=self._password_key,
table_userbase=self._table_userbase,
lock_state_key=self._lock_state_key,
login_state_key=self._login_state_key,
)
for id, username, password in self._mysqldb.find(sql):
yield NormalUser(user_id=id, username=username, password=password)
def handle_login_failed_user(self, user: NormalUser):
"""
处理登录失败的user
@return:
"""
pass
def handel_exception(self, e: Exception):
"""
处理异常
@param e:
@return:
"""
log.exception(e)
def login(self, user: NormalUser) -> NormalUser:
"""
登录 生产cookie
"""
raise NotImplementedError
def add_user(self, user: NormalUser):
log.debug("add {}".format(user))
self._redisdb.hset(self._tab_user_pool, user.user_id, user.to_dict())
sql = "update {table_userbase} set {login_state_key} = 1 where id = {user_id}".format(
table_userbase=self._table_userbase,
login_state_key=self._login_state_key,
username_key=self._username_key,
user_id=user.user_id,
)
self._mysqldb.update(sql)
def get_user(self, block=True) -> Optional[NormalUser]:
while True:
try:
user_id = self._get_user_id()
user_str = None
if user_id:
user_str = self._redisdb.hget(self._tab_user_pool, user_id)
# 如果没取到user,可能是其他爬虫将此用户删除了,需要重刷新本地缓存的用户id
if not user_str:
self._load_users_id()
continue
if not user_id and block:
self._keep_alive = False
self.run()
continue
return user_str and NormalUser(**eval(user_str))
except Exception as e:
log.exception(e)
tools.delay_time(1)
def del_user(self, user_id: int):
"""
删除失效的user
@return:
"""
self._redisdb.hdel(self._tab_user_pool, user_id)
self._load_users_id()
sql = "update {table_userbase} set {login_state_key} = 0 where id = {user_id}".format(
table_userbase=self._table_userbase,
login_state_key=self._login_state_key,
username_key=self._username_key,
user_id=user_id,
)
self._mysqldb.update(sql)
def tag_user_locked(self, user_id: int):
"""
标记用户被封堵
"""
sql = "update {table_userbase} set {lock_state_key} = 1 where id = {user_id}".format(
table_userbase=self._table_userbase,
lock_state_key=self._lock_state_key,
username_key=self._username_key,
user_id=user_id,
)
self._mysqldb.update(sql)
def run(self):
while True:
try:
try:
with RedisLock(
key=self._tab_user_pool, lock_timeout=3600, wait_timeout=0
) as _lock:
if _lock.locked:
for user in self._load_user():
retry_times = 0
while retry_times <= self._login_retry_times:
try:
user = self.login(user)
if user:
self.add_user(user)
else:
self.handle_login_failed_user(user)
break
except NotImplementedError:
log.error(
f"{self.__class__.__name__} must be implementation login method!"
)
os._exit(0)
except Exception as e:
self.handel_exception(e)
log.debug(
f"login failed, user: {user} retry_times: {retry_times}"
)
retry_times += 1
else:
self.handle_login_failed_user(user)
now_user_count = self._redisdb.hget_count(
self._tab_user_pool
)
log.info("当前在线user数为 {}".format(now_user_count))
except Exception as e:
log.exception(e)
if self._keep_alive:
tools.delay_time(10)
else:
break
except Exception as e:
log.exception(e)
tools.delay_time(1)