def getSteamItem(id, conn: pymysql.connections.Connection, lock):
try:
s = steamItem(id)
s.get()
if not s.exists:
return
cur = conn.cursor()
lock.acquire()
try:
cur.execute('USE `steam`;')
s._insert(cur)
conn.commit()
except:
pass
finally:
lock.release()
time.sleep(random.random())
return
except Exception as ex:
print('---' * 20)
print('%s failed.' % s.id)
print(ex)
traceback.print_exc()
try:
s._print()
except:
pass
print('---' * 20)
return
def upload_song(db: pymysql.connections.Connection, fields, values, sid):
ret = False
cursor = db.cursor()
sql = 'insert into t_songs({}) values({}) ON DUPLICATE KEY UPDATE song_id={};'
sql = sql.format(fields, values, sid)
try:
cursor.execute(sql)
db.commit()
ret = True
except:
StdError.error("上传模块歌曲上传出现未知错误\tsql=" + sql)
db.rollback()
finally:
cursor.close()
return ret
def upload_list(db: pymysql.connections.Connection, fields, values, lid):
ret = False
cursor = db.cursor()
sql = 'insert into t_lists ({}) values ({}) ON DUPLICATE KEY UPDATE list_id={};'
sql = sql.format(fields, values, lid)
sql = sql.replace("\n", r'\n')
sql = sql.replace("\t", r'\t')
try:
cursor.execute(sql)
db.commit()
ret = True
except:
StdError.error("上传模块歌单上传出现未知错误\tsql=" + sql)
db.rollback()
finally:
cursor.close()
return ret
def delete_registration(db_conn: pymysql.connections.Connection,
registration: U2FRegistration):
"""Delete a u2f registration
Arguments:
db_conn (pymysql.connections.Connection): a connection object to the db
username (str): The username to query
registration (U2FRegistration): A object representing the users u2f registration
"""
sql = 'DELETE FROM U2FDevice_Registration WHERE `username`=%s'
LOG.debug('Deleting: %s', registration.username.decode())
with db_conn.cursor() as cursor:
# We can safely just use the username here as we make sure
# there is only one match earlier in the code
cursor.execute(sql, (registration.username.decode(), ))
LOG.info('Registration Deleted: %s', registration.username.decode())
db_conn.commit()
def user_forget_passwd(db: pymysql.connections.Connection, userName, userEmail, userNewPwd):
cursor = db.cursor()
ret = False
try:
sql = 'select user_id from t_users where user_name=\'{}\' and user_email=\'{}\';'.format(userName, userEmail)
if cursor.execute(sql) == 0:
raise UserManagerError("用户修改密码错误,没有找到符合的用户")
else:
uid = cursor.fetchone()[0]
sql = 'update t_users set user_pwd=\'{}\' where user_id={};'.format(userNewPwd, uid)
cursor.execute(sql)
db.commit()
ret = True
except UserManagerError as e:
StdError.error(e.message + "\tuser_name=" + userName + "\tuser_pwd=" + userNewPwd + "\tuser_email=" + userEmail)
except:
StdError.error("用户修改密码出现未知错误" + "\tuser_name=" + userName + "\tuser_pwd=" + userNewPwd + "\tuser_email=" + userEmail)
finally:
cursor.close()
return ret
def set_action(db: pymysql.connections.Connection, uid, sid, like, unlike, audition, download):
ret = False
cursor = db.cursor()
sql = 'select action_id from t_actions where action_user={} and action_song={};'.format(uid, sid)
if cursor.execute(sql) == 0:
sql = 'insert into t_actions (action_user, action_song, action_like, action_unlike, action_audition, action_download) values ({}, {}, {}, {}, {}, {});'.format(uid, sid, like, unlike, audition, download)
StdError.info("用户行为新增:uid={},sid={}".format(uid, sid))
else:
sql = 'update t_actions set action_like={}, action_unlike={}, action_audition={}, action_download={} where action_user={} and action_song={};'.format(like, unlike, audition, download, uid, sid)
StdError.info("用户行为更新:uid={},sid={}".format(uid, sid))
try:
cursor.execute(sql)
db.commit()
ret = True
except:
db.rollback()
StdError.error("行为设置出现未知错误\tuid={},sid={},sql={}".format(uid, sid, sql))
ret = False
finally:
cursor.close()
return ret
def user_register(db: pymysql.connections.Connection, userName, userPwd, userSUPER, userEmail, userLikes):
cursor = db.cursor()
ret = False
try:
if cursor.execute('select user_id from t_users where user_name=\'{}\';'.format(userName)) != 0:
raise UserManagerError('用户注册错误,已存在相同的用户名')
sql = 'insert into t_users (user_name, user_SUPER, user_like, user_pwd, user_email) values (\'{}\', {}, \'{}\', \'{}\', \'{}\');'
sql = sql.format(userName, userSUPER, ','.join(userLikes), userPwd, userEmail)
StdError.info("注册用户" + sql)
cursor.execute(sql)
db.commit()
ret = True
except UserManagerError as e:
db.rollback()
StdError.warn(e.message + "\tuser_name=" + userName + "\tuser_SUPER=" + str(userSUPER) + "\tuser_pwd=" + str(userPwd) + "\tuser_email=" + userEmail + "\tuser_likes=" + userLikes)
except pymysql.err.IntegrityError as e:
db.rollback()
StdError.error(str(e) + "\tuser_name=" + userName + "\tuser_SUPER=" + str(userSUPER) + "\tuser_pwd=" + str(userPwd) + "\tuser_email=" + userEmail + "\tuser_likes=" + userLikes)
except:
db.rollback()
StdError.error("用户注册出现未知错误" + "\tuser_name=" + userName + "\tuser_SUPER=" + str(userSUPER) + "\tuser_pwd=" + str(userPwd) + "\tuser_email=" + userEmail + "\tuser_likes=" + userLikes)
finally:
cursor.close()
return ret
def to_sql(
df: pd.DataFrame,
con: pymysql.connections.Connection,
table: str,
schema: str,
mode: str = "append",
index: bool = False,
dtype: Optional[Dict[str, str]] = None,
varchar_lengths: Optional[Dict[str, int]] = None,
) -> None:
"""Write records stored in a DataFrame into MySQL.
Parameters
----------
df : pandas.DataFrame
Pandas DataFrame https://pandas.pydata.org/pandas-docs/stable/reference/api/pandas.DataFrame.html
con : pymysql.connections.Connection
Use pymysql.connect() to use credentials directly or wr.mysql.connect() to fetch it from the Glue Catalog.
table : str
Table name
schema : str
Schema name
mode : str
Append or overwrite.
index : bool
True to store the DataFrame index as a column in the table,
otherwise False to ignore it.
dtype: Dict[str, str], optional
Dictionary of columns names and MySQL types to be casted.
Useful when you have columns with undetermined or mixed data types.
(e.g. {'col name': 'TEXT', 'col2 name': 'FLOAT'})
varchar_lengths : Dict[str, int], optional
Dict of VARCHAR length by columns. (e.g. {"col1": 10, "col5": 200}).
Returns
-------
None
None.
Examples
--------
Writing to MySQL using a Glue Catalog Connections
>>> import awswrangler as wr
>>> con = wr.mysql.connect("MY_GLUE_CONNECTION")
>>> wr.mysql.to_sql(
... df=df
... table="my_table",
... schema="test",
... con=con
... )
>>> con.close()
"""
if df.empty is True:
raise exceptions.EmptyDataFrame()
_validate_connection(con=con)
try:
with con.cursor() as cursor:
_create_table(
df=df,
cursor=cursor,
table=table,
schema=schema,
mode=mode,
index=index,
dtype=dtype,
varchar_lengths=varchar_lengths,
)
if index:
df.reset_index(level=df.index.names, inplace=True)
placeholders: str = ", ".join(["%s"] * len(df.columns))
sql: str = f"INSERT INTO `{schema}`.`{table}` VALUES ({placeholders})"
_logger.debug("sql: %s", sql)
parameters: List[List[Any]] = _db_utils.extract_parameters(df=df)
cursor.executemany(sql, parameters)
con.commit() # type: ignore
except Exception as ex:
con.rollback() # type: ignore
_logger.error(ex)
raise
def to_sql(
df: pd.DataFrame,
con: pymysql.connections.Connection,
table: str,
schema: str,
mode: str = "append",
index: bool = False,
dtype: Optional[Dict[str, str]] = None,
varchar_lengths: Optional[Dict[str, int]] = None,
use_column_names: bool = False,
chunksize: int = 200,
) -> None:
"""Write records stored in a DataFrame into MySQL.
Parameters
----------
df : pandas.DataFrame
Pandas DataFrame https://pandas.pydata.org/pandas-docs/stable/reference/api/pandas.DataFrame.html
con : pymysql.connections.Connection
Use pymysql.connect() to use credentials directly or wr.mysql.connect() to fetch it from the Glue Catalog.
table : str
Table name
schema : str
Schema name
mode : str
Append, overwrite, upsert_duplicate_key, upsert_replace_into, upsert_distinct.
append: Inserts new records into table
overwrite: Drops table and recreates
upsert_duplicate_key: Performs an upsert using `ON DUPLICATE KEY` clause. Requires table schema to have
defined keys, otherwise duplicate records will be inserted.
upsert_replace_into: Performs upsert using `REPLACE INTO` clause. Less efficient and still requires the
table schema to have keys or else duplicate records will be inserted
upsert_distinct: Inserts new records, including duplicates, then recreates the table and inserts `DISTINCT`
records from old table. This is the least efficient approach but handles scenarios where there are no
keys on table.
index : bool
True to store the DataFrame index as a column in the table,
otherwise False to ignore it.
dtype: Dict[str, str], optional
Dictionary of columns names and MySQL types to be casted.
Useful when you have columns with undetermined or mixed data types.
(e.g. {'col name': 'TEXT', 'col2 name': 'FLOAT'})
varchar_lengths : Dict[str, int], optional
Dict of VARCHAR length by columns. (e.g. {"col1": 10, "col5": 200}).
use_column_names: bool
If set to True, will use the column names of the DataFrame for generating the INSERT SQL Query.
E.g. If the DataFrame has two columns `col1` and `col3` and `use_column_names` is True, data will only be
inserted into the database columns `col1` and `col3`.
chunksize: int
Number of rows which are inserted with each SQL query. Defaults to inserting 200 rows per query.
Returns
-------
None
None.
Examples
--------
Writing to MySQL using a Glue Catalog Connections
>>> import awswrangler as wr
>>> con = wr.mysql.connect("MY_GLUE_CONNECTION")
>>> wr.mysql.to_sql(
... df=df,
... table="my_table",
... schema="test",
... con=con
... )
>>> con.close()
"""
if df.empty is True:
raise exceptions.EmptyDataFrame()
mode = mode.strip().lower()
modes = [
"append",
"overwrite",
"upsert_replace_into",
"upsert_duplicate_key",
"upsert_distinct",
]
if mode not in modes:
raise exceptions.InvalidArgumentValue(
f"mode must be one of {', '.join(modes)}")
_validate_connection(con=con)
try:
with con.cursor() as cursor:
_create_table(
df=df,
cursor=cursor,
table=table,
schema=schema,
mode=mode,
index=index,
dtype=dtype,
varchar_lengths=varchar_lengths,
)
if index:
df.reset_index(level=df.index.names, inplace=True)
column_placeholders: str = ", ".join(["%s"] * len(df.columns))
insertion_columns = ""
upsert_columns = ""
upsert_str = ""
if use_column_names:
insertion_columns = f"({', '.join(df.columns)})"
if mode == "upsert_duplicate_key":
upsert_columns = ", ".join(
df.columns.map(
lambda column: f"`{column}`=VALUES(`{column}`)"))
upsert_str = f" ON DUPLICATE KEY UPDATE {upsert_columns}"
placeholder_parameter_pair_generator = _db_utils.generate_placeholder_parameter_pairs(
df=df,
column_placeholders=column_placeholders,
chunksize=chunksize)
sql: str
for placeholders, parameters in placeholder_parameter_pair_generator:
if mode == "upsert_replace_into":
sql = f"REPLACE INTO `{schema}`.`{table}` {insertion_columns} VALUES {placeholders}"
else:
sql = f"INSERT INTO `{schema}`.`{table}` {insertion_columns} VALUES {placeholders}{upsert_str}"
_logger.debug("sql: %s", sql)
cursor.executemany(sql, (parameters, ))
con.commit()
if mode == "upsert_distinct":
temp_table = f"{table}_{uuid.uuid4().hex}"
cursor.execute(
f"CREATE TABLE `{schema}`.`{temp_table}` LIKE `{schema}`.`{table}`"
)
cursor.execute(
f"INSERT INTO `{schema}`.`{temp_table}` SELECT DISTINCT * FROM `{schema}`.`{table}`"
)
cursor.execute(f"DROP TABLE IF EXISTS `{schema}`.`{table}`")
cursor.execute(
f"ALTER TABLE `{schema}`.`{temp_table}` RENAME TO `{table}`"
)
con.commit()
except Exception as ex:
con.rollback()
_logger.error(ex)
raise
def to_sql(
df: pd.DataFrame,
con: pymysql.connections.Connection,
table: str,
schema: str,
mode: str = "append",
index: bool = False,
dtype: Optional[Dict[str, str]] = None,
varchar_lengths: Optional[Dict[str, int]] = None,
use_column_names: bool = False,
chunksize: int = 200,
) -> None:
"""Write records stored in a DataFrame into MySQL.
Parameters
----------
df : pandas.DataFrame
Pandas DataFrame https://pandas.pydata.org/pandas-docs/stable/reference/api/pandas.DataFrame.html
con : pymysql.connections.Connection
Use pymysql.connect() to use credentials directly or wr.mysql.connect() to fetch it from the Glue Catalog.
table : str
Table name
schema : str
Schema name
mode : str
Append or overwrite.
index : bool
True to store the DataFrame index as a column in the table,
otherwise False to ignore it.
dtype: Dict[str, str], optional
Dictionary of columns names and MySQL types to be casted.
Useful when you have columns with undetermined or mixed data types.
(e.g. {'col name': 'TEXT', 'col2 name': 'FLOAT'})
varchar_lengths : Dict[str, int], optional
Dict of VARCHAR length by columns. (e.g. {"col1": 10, "col5": 200}).
use_column_names: bool
If set to True, will use the column names of the DataFrame for generating the INSERT SQL Query.
E.g. If the DataFrame has two columns `col1` and `col3` and `use_column_names` is True, data will only be
inserted into the database columns `col1` and `col3`.
chunksize: int
Number of rows which are inserted with each SQL query. Defaults to inserting 200 rows per query.
Returns
-------
None
None.
Examples
--------
Writing to MySQL using a Glue Catalog Connections
>>> import awswrangler as wr
>>> con = wr.mysql.connect("MY_GLUE_CONNECTION")
>>> wr.mysql.to_sql(
... df=df,
... table="my_table",
... schema="test",
... con=con
... )
>>> con.close()
"""
if df.empty is True:
raise exceptions.EmptyDataFrame()
_validate_connection(con=con)
try:
with con.cursor() as cursor:
_create_table(
df=df,
cursor=cursor,
table=table,
schema=schema,
mode=mode,
index=index,
dtype=dtype,
varchar_lengths=varchar_lengths,
)
if index:
df.reset_index(level=df.index.names, inplace=True)
column_placeholders: str = ", ".join(["%s"] * len(df.columns))
insertion_columns = ""
if use_column_names:
insertion_columns = f"({', '.join(df.columns)})"
placeholder_parameter_pair_generator = _db_utils.generate_placeholder_parameter_pairs(
df=df,
column_placeholders=column_placeholders,
chunksize=chunksize)
for placeholders, parameters in placeholder_parameter_pair_generator:
sql: str = f"INSERT INTO `{schema}`.`{table}` {insertion_columns} VALUES {placeholders}"
_logger.debug("sql: %s", sql)
cursor.executemany(sql, (parameters, ))
con.commit()
except Exception as ex:
con.rollback()
_logger.error(ex)
raise