wg-backend-django/acer-env/lib/python3.10/site-packages/django/db/backends/utils.py

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2022-11-30 03:58:16 -05:00
import datetime
import decimal
import functools
import logging
import time
from contextlib import contextmanager
from django.db import NotSupportedError
from django.utils.crypto import md5
from django.utils.dateparse import parse_time
logger = logging.getLogger("django.db.backends")
class CursorWrapper:
def __init__(self, cursor, db):
self.cursor = cursor
self.db = db
WRAP_ERROR_ATTRS = frozenset(["fetchone", "fetchmany", "fetchall", "nextset"])
def __getattr__(self, attr):
cursor_attr = getattr(self.cursor, attr)
if attr in CursorWrapper.WRAP_ERROR_ATTRS:
return self.db.wrap_database_errors(cursor_attr)
else:
return cursor_attr
def __iter__(self):
with self.db.wrap_database_errors:
yield from self.cursor
def __enter__(self):
return self
def __exit__(self, type, value, traceback):
# Close instead of passing through to avoid backend-specific behavior
# (#17671). Catch errors liberally because errors in cleanup code
# aren't useful.
try:
self.close()
except self.db.Database.Error:
pass
# The following methods cannot be implemented in __getattr__, because the
# code must run when the method is invoked, not just when it is accessed.
def callproc(self, procname, params=None, kparams=None):
# Keyword parameters for callproc aren't supported in PEP 249, but the
# database driver may support them (e.g. cx_Oracle).
if kparams is not None and not self.db.features.supports_callproc_kwargs:
raise NotSupportedError(
"Keyword parameters for callproc are not supported on this "
"database backend."
)
self.db.validate_no_broken_transaction()
with self.db.wrap_database_errors:
if params is None and kparams is None:
return self.cursor.callproc(procname)
elif kparams is None:
return self.cursor.callproc(procname, params)
else:
params = params or ()
return self.cursor.callproc(procname, params, kparams)
def execute(self, sql, params=None):
return self._execute_with_wrappers(
sql, params, many=False, executor=self._execute
)
def executemany(self, sql, param_list):
return self._execute_with_wrappers(
sql, param_list, many=True, executor=self._executemany
)
def _execute_with_wrappers(self, sql, params, many, executor):
context = {"connection": self.db, "cursor": self}
for wrapper in reversed(self.db.execute_wrappers):
executor = functools.partial(wrapper, executor)
return executor(sql, params, many, context)
def _execute(self, sql, params, *ignored_wrapper_args):
self.db.validate_no_broken_transaction()
with self.db.wrap_database_errors:
if params is None:
# params default might be backend specific.
return self.cursor.execute(sql)
else:
return self.cursor.execute(sql, params)
def _executemany(self, sql, param_list, *ignored_wrapper_args):
self.db.validate_no_broken_transaction()
with self.db.wrap_database_errors:
return self.cursor.executemany(sql, param_list)
class CursorDebugWrapper(CursorWrapper):
# XXX callproc isn't instrumented at this time.
def execute(self, sql, params=None):
with self.debug_sql(sql, params, use_last_executed_query=True):
return super().execute(sql, params)
def executemany(self, sql, param_list):
with self.debug_sql(sql, param_list, many=True):
return super().executemany(sql, param_list)
@contextmanager
def debug_sql(
self, sql=None, params=None, use_last_executed_query=False, many=False
):
start = time.monotonic()
try:
yield
finally:
stop = time.monotonic()
duration = stop - start
if use_last_executed_query:
sql = self.db.ops.last_executed_query(self.cursor, sql, params)
try:
times = len(params) if many else ""
except TypeError:
# params could be an iterator.
times = "?"
self.db.queries_log.append(
{
"sql": "%s times: %s" % (times, sql) if many else sql,
"time": "%.3f" % duration,
}
)
logger.debug(
"(%.3f) %s; args=%s; alias=%s",
duration,
sql,
params,
self.db.alias,
extra={
"duration": duration,
"sql": sql,
"params": params,
"alias": self.db.alias,
},
)
def split_tzname_delta(tzname):
"""
Split a time zone name into a 3-tuple of (name, sign, offset).
"""
for sign in ["+", "-"]:
if sign in tzname:
name, offset = tzname.rsplit(sign, 1)
if offset and parse_time(offset):
return name, sign, offset
return tzname, None, None
###############################################
# Converters from database (string) to Python #
###############################################
def typecast_date(s):
return (
datetime.date(*map(int, s.split("-"))) if s else None
) # return None if s is null
def typecast_time(s): # does NOT store time zone information
if not s:
return None
hour, minutes, seconds = s.split(":")
if "." in seconds: # check whether seconds have a fractional part
seconds, microseconds = seconds.split(".")
else:
microseconds = "0"
return datetime.time(
int(hour), int(minutes), int(seconds), int((microseconds + "000000")[:6])
)
def typecast_timestamp(s): # does NOT store time zone information
# "2005-07-29 15:48:00.590358-05"
# "2005-07-29 09:56:00-05"
if not s:
return None
if " " not in s:
return typecast_date(s)
d, t = s.split()
# Remove timezone information.
if "-" in t:
t, _ = t.split("-", 1)
elif "+" in t:
t, _ = t.split("+", 1)
dates = d.split("-")
times = t.split(":")
seconds = times[2]
if "." in seconds: # check whether seconds have a fractional part
seconds, microseconds = seconds.split(".")
else:
microseconds = "0"
return datetime.datetime(
int(dates[0]),
int(dates[1]),
int(dates[2]),
int(times[0]),
int(times[1]),
int(seconds),
int((microseconds + "000000")[:6]),
)
###############################################
# Converters from Python to database (string) #
###############################################
def split_identifier(identifier):
"""
Split an SQL identifier into a two element tuple of (namespace, name).
The identifier could be a table, column, or sequence name might be prefixed
by a namespace.
"""
try:
namespace, name = identifier.split('"."')
except ValueError:
namespace, name = "", identifier
return namespace.strip('"'), name.strip('"')
def truncate_name(identifier, length=None, hash_len=4):
"""
Shorten an SQL identifier to a repeatable mangled version with the given
length.
If a quote stripped name contains a namespace, e.g. USERNAME"."TABLE,
truncate the table portion only.
"""
namespace, name = split_identifier(identifier)
if length is None or len(name) <= length:
return identifier
digest = names_digest(name, length=hash_len)
return "%s%s%s" % (
'%s"."' % namespace if namespace else "",
name[: length - hash_len],
digest,
)
def names_digest(*args, length):
"""
Generate a 32-bit digest of a set of arguments that can be used to shorten
identifying names.
"""
h = md5(usedforsecurity=False)
for arg in args:
h.update(arg.encode())
return h.hexdigest()[:length]
def format_number(value, max_digits, decimal_places):
"""
Format a number into a string with the requisite number of digits and
decimal places.
"""
if value is None:
return None
context = decimal.getcontext().copy()
if max_digits is not None:
context.prec = max_digits
if decimal_places is not None:
value = value.quantize(
decimal.Decimal(1).scaleb(-decimal_places), context=context
)
else:
context.traps[decimal.Rounded] = 1
value = context.create_decimal(value)
return "{:f}".format(value)
def strip_quotes(table_name):
"""
Strip quotes off of quoted table names to make them safe for use in index
names, sequence names, etc. For example '"USER"."TABLE"' (an Oracle naming
scheme) becomes 'USER"."TABLE'.
"""
has_quotes = table_name.startswith('"') and table_name.endswith('"')
return table_name[1:-1] if has_quotes else table_name