from typing import Optional, Union
from .exceptions_types import EmailSyntaxError, ValidatedEmail
from .syntax import split_email, validate_email_local_part, validate_email_domain_name, validate_email_domain_literal, validate_email_length
from .rfc_constants import CASE_INSENSITIVE_MAILBOX_NAMES
def validate_email(
email: Union[str, bytes],
/, # prior arguments are positional-only
*, # subsequent arguments are keyword-only
allow_smtputf8: Optional[bool] = None,
allow_empty_local: bool = False,
allow_quoted_local: Optional[bool] = None,
allow_domain_literal: Optional[bool] = None,
check_deliverability: Optional[bool] = None,
test_environment: Optional[bool] = None,
globally_deliverable: Optional[bool] = None,
timeout: Optional[int] = None,
dns_resolver: Optional[object] = None
) -> ValidatedEmail:
"""
Given an email address, and some options, returns a ValidatedEmail instance
with information about the address if it is valid or, if the address is not
valid, raises an EmailNotValidError. This is the main function of the module.
"""
# Fill in default values of arguments.
from . import ALLOW_SMTPUTF8, ALLOW_QUOTED_LOCAL, ALLOW_DOMAIN_LITERAL, \
GLOBALLY_DELIVERABLE, CHECK_DELIVERABILITY, TEST_ENVIRONMENT, DEFAULT_TIMEOUT
if allow_smtputf8 is None:
allow_smtputf8 = ALLOW_SMTPUTF8
if allow_quoted_local is None:
allow_quoted_local = ALLOW_QUOTED_LOCAL
if allow_domain_literal is None:
allow_domain_literal = ALLOW_DOMAIN_LITERAL
if check_deliverability is None:
check_deliverability = CHECK_DELIVERABILITY
if test_environment is None:
test_environment = TEST_ENVIRONMENT
if globally_deliverable is None:
globally_deliverable = GLOBALLY_DELIVERABLE
if timeout is None and dns_resolver is None:
timeout = DEFAULT_TIMEOUT
# Allow email to be a str or bytes instance. If bytes,
# it must be ASCII because that's how the bytes work
# on the wire with SMTP.
if not isinstance(email, str):
try:
email = email.decode("ascii")
except ValueError as e:
raise EmailSyntaxError("The email address is not valid ASCII.") from e
# Split the address into the local part (before the @-sign)
# and the domain part (after the @-sign). Normally, there
# is only one @-sign. But the awkward "quoted string" local
# part form (RFC 5321 4.1.2) allows @-signs in the local
# part if the local part is quoted.
local_part, domain_part, is_quoted_local_part \
= split_email(email)
# Collect return values in this instance.
ret = ValidatedEmail()
ret.original = email
# Validate the email address's local part syntax and get a normalized form.
# If the original address was quoted and the decoded local part is a valid
# unquoted local part, then we'll get back a normalized (unescaped) local
# part.
local_part_info = validate_email_local_part(local_part,
allow_smtputf8=allow_smtputf8,
allow_empty_local=allow_empty_local,
quoted_local_part=is_quoted_local_part)
ret.local_part = local_part_info["local_part"]
ret.ascii_local_part = local_part_info["ascii_local_part"]
ret.smtputf8 = local_part_info["smtputf8"]
# If a quoted local part isn't allowed but is present, now raise an exception.
# This is done after any exceptions raised by validate_email_local_part so
# that mandatory checks have highest precedence.
if is_quoted_local_part and not allow_quoted_local:
raise EmailSyntaxError("Quoting the part before the @-sign is not allowed here.")
# Some local parts are required to be case-insensitive, so we should normalize
# to lowercase.
# RFC 2142
if ret.ascii_local_part is not None \
and ret.ascii_local_part.lower() in CASE_INSENSITIVE_MAILBOX_NAMES \
and ret.local_part is not None:
ret.ascii_local_part = ret.ascii_local_part.lower()
ret.local_part = ret.local_part.lower()
# Validate the email address's domain part syntax and get a normalized form.
is_domain_literal = False
if len(domain_part) == 0:
raise EmailSyntaxError("There must be something after the @-sign.")
elif domain_part.startswith("[") and domain_part.endswith("]"):
# Parse the address in the domain literal and get back a normalized domain.
domain_part_info = validate_email_domain_literal(domain_part[1:-1])
if not allow_domain_literal:
raise EmailSyntaxError("A bracketed IP address after the @-sign is not allowed here.")
ret.domain = domain_part_info["domain"]
ret.ascii_domain = domain_part_info["domain"] # Domain literals are always ASCII.
ret.domain_address = domain_part_info["domain_address"]
is_domain_literal = True # Prevent deliverability checks.
else:
# Check the syntax of the domain and get back a normalized
# internationalized and ASCII form.
domain_part_info = validate_email_domain_name(domain_part, test_environment=test_environment, globally_deliverable=globally_deliverable)
ret.domain = domain_part_info["domain"]
ret.ascii_domain = domain_part_info["ascii_domain"]
# Construct the complete normalized form.
ret.normalized = ret.local_part + "@" + ret.domain
# If the email address has an ASCII form, add it.
if not ret.smtputf8:
if not ret.ascii_domain:
raise Exception("Missing ASCII domain.")
ret.ascii_email = (ret.ascii_local_part or "") + "@" + ret.ascii_domain
else:
ret.ascii_email = None
# Check the length of the address.
validate_email_length(ret)
if check_deliverability and not test_environment:
# Validate the email address's deliverability using DNS
# and update the returned ValidatedEmail object with metadata.
if is_domain_literal:
# There is nothing to check --- skip deliverability checks.
return ret
# Lazy load `deliverability` as it is slow to import (due to dns.resolver)
from .deliverability import validate_email_deliverability
deliverability_info = validate_email_deliverability(
ret.ascii_domain, ret.domain, timeout, dns_resolver
)
for key, value in deliverability_info.items():
setattr(ret, key, value)
return ret