""" A library of validators that return None and raise ValidationError when the provided data isn't valid. Validators may be callable classes, and they may have an 'always_test' attribute. If an 'always_test' attribute exists (regardless of value), the validator will *always* be run, regardless of whether its associated form field is required. """ import urllib2 import re try: from decimal import Decimal, DecimalException except ImportError: from django.utils._decimal import Decimal, DecimalException # Python 2.3 from django.conf import settings from django.utils.translation import ugettext as _, ugettext_lazy, ungettext from django.utils.functional import Promise, lazy from django.utils.encoding import force_unicode _datere = r'\d{4}-\d{1,2}-\d{1,2}' _timere = r'(?:[01]?[0-9]|2[0-3]):[0-5][0-9](?::[0-5][0-9])?' alnum_re = re.compile(r'^\w+$') alnumurl_re = re.compile(r'^[-\w/]+$') ansi_date_re = re.compile('^%s$' % _datere) ansi_time_re = re.compile('^%s$' % _timere) ansi_datetime_re = re.compile('^%s %s$' % (_datere, _timere)) email_re = re.compile( r"(^[-!#$%&'*+/=?^_`{}|~0-9A-Z]+(\.[-!#$%&'*+/=?^_`{}|~0-9A-Z]+)*" # dot-atom r'|^"([\001-\010\013\014\016-\037!#-\[\]-\177]|\\[\001-\011\013\014\016-\177])*"' # quoted-string r')@(?:[A-Z0-9-]+\.)+[A-Z]{2,6}$', re.IGNORECASE) # domain integer_re = re.compile(r'^-?\d+$') ip4_re = re.compile(r'^(25[0-5]|2[0-4]\d|[0-1]?\d?\d)(\.(25[0-5]|2[0-4]\d|[0-1]?\d?\d)){3}$') phone_re = re.compile(r'^[A-PR-Y0-9]{3}-[A-PR-Y0-9]{3}-[A-PR-Y0-9]{4}$', re.IGNORECASE) slug_re = re.compile(r'^[-\w]+$') url_re = re.compile(r'^https?://\S+$') lazy_inter = lazy(lambda a,b: force_unicode(a) % b, unicode) class ValidationError(Exception): def __init__(self, message): "ValidationError can be passed a string or a list." if isinstance(message, list): self.messages = [force_unicode(msg) for msg in message] else: assert isinstance(message, (basestring, Promise)), ("%s should be a string" % repr(message)) self.messages = [force_unicode(message)] def __str__(self): # This is needed because, without a __str__(), printing an exception # instance would result in this: # AttributeError: ValidationError instance has no attribute 'args' # See http://www.python.org/doc/current/tut/node10.html#handling return str(self.messages) class CriticalValidationError(Exception): def __init__(self, message): "ValidationError can be passed a string or a list." if isinstance(message, list): self.messages = [force_unicode(msg) for msg in message] else: assert isinstance(message, (basestring, Promise)), ("'%s' should be a string" % message) self.messages = [force_unicode(message)] def __str__(self): return str(self.messages) def isAlphaNumeric(field_data, all_data): if not alnum_re.search(field_data): raise ValidationError, _("This value must contain only letters, numbers and underscores.") def isAlphaNumericURL(field_data, all_data): if not alnumurl_re.search(field_data): raise ValidationError, _("This value must contain only letters, numbers, underscores, dashes or slashes.") def isSlug(field_data, all_data): if not slug_re.search(field_data): raise ValidationError, _("This value must contain only letters, numbers, underscores or hyphens.") def isLowerCase(field_data, all_data): if field_data.lower() != field_data: raise ValidationError, _("Uppercase letters are not allowed here.") def isUpperCase(field_data, all_data): if field_data.upper() != field_data: raise ValidationError, _("Lowercase letters are not allowed here.") def isCommaSeparatedIntegerList(field_data, all_data): for supposed_int in field_data.split(','): try: int(supposed_int) except ValueError: raise ValidationError, _("Enter only digits separated by commas.") def isCommaSeparatedEmailList(field_data, all_data): """ Checks that field_data is a string of e-mail addresses separated by commas. Blank field_data values will not throw a validation error, and whitespace is allowed around the commas. """ for supposed_email in field_data.split(','): try: isValidEmail(supposed_email.strip(), '') except ValidationError: raise ValidationError, _("Enter valid e-mail addresses separated by commas.") def isValidIPAddress4(field_data, all_data): if not ip4_re.search(field_data): raise ValidationError, _("Please enter a valid IP address.") def isNotEmpty(field_data, all_data): if field_data.strip() == '': raise ValidationError, _("Empty values are not allowed here.") def isOnlyDigits(field_data, all_data): if not field_data.isdigit(): raise ValidationError, _("Non-numeric characters aren't allowed here.") def isNotOnlyDigits(field_data, all_data): if field_data.isdigit(): raise ValidationError, _("This value can't be comprised solely of digits.") def isInteger(field_data, all_data): # This differs from isOnlyDigits because this accepts the negative sign if not integer_re.search(field_data): raise ValidationError, _("Enter a whole number.") def isOnlyLetters(field_data, all_data): if not field_data.isalpha(): raise ValidationError, _("Only alphabetical characters are allowed here.") def _isValidDate(date_string): """ A helper function used by isValidANSIDate and isValidANSIDatetime to check if the date is valid. The date string is assumed to already be in YYYY-MM-DD format. """ from datetime import date # Could use time.strptime here and catch errors, but datetime.date below # produces much friendlier error messages. year, month, day = map(int, date_string.split('-')) # This check is needed because strftime is used when saving the date # value to the database, and strftime requires that the year be >=1900. if year < 1900: raise ValidationError, _('Year must be 1900 or later.') try: date(year, month, day) except ValueError, e: msg = _('Invalid date: %s') % _(str(e)) raise ValidationError, msg def isValidANSIDate(field_data, all_data): if not ansi_date_re.search(field_data): raise ValidationError, _('Enter a valid date in YYYY-MM-DD format.') _isValidDate(field_data) def isValidANSITime(field_data, all_data): if not ansi_time_re.search(field_data): raise ValidationError, _('Enter a valid time in HH:MM format.') def isValidANSIDatetime(field_data, all_data): if not ansi_datetime_re.search(field_data): raise ValidationError, _('Enter a valid date/time in YYYY-MM-DD HH:MM format.') _isValidDate(field_data.split()[0]) def isValidEmail(field_data, all_data): if not email_re.search(field_data): raise ValidationError, _('Enter a valid e-mail address.') def isValidImage(field_data, all_data): """ Checks that the file-upload field data contains a valid image (GIF, JPG, PNG, possibly others -- whatever the Python Imaging Library supports). """ from PIL import Image from cStringIO import StringIO try: content = field_data['content'] except TypeError: raise ValidationError, _("No file was submitted. Check the encoding type on the form.") try: Image.open(StringIO(content)) except (IOError, OverflowError): # Python Imaging Library doesn't recognize it as an image # OverflowError is due to a bug in PIL with Python 2.4+ which can cause # it to gag on OLE files. raise ValidationError, _("Upload a valid image. The file you uploaded was either not an image or a corrupted image.") def isValidImageURL(field_data, all_data): uc = URLMimeTypeCheck(('image/jpeg', 'image/gif', 'image/png')) try: uc(field_data, all_data) except URLMimeTypeCheck.InvalidContentType: raise ValidationError, _("The URL %s does not point to a valid image.") % field_data def isValidPhone(field_data, all_data): if not phone_re.search(field_data): raise ValidationError, _('Phone numbers must be in XXX-XXX-XXXX format. "%s" is invalid.') % field_data def isValidQuicktimeVideoURL(field_data, all_data): "Checks that the given URL is a video that can be played by QuickTime (qt, mpeg)" uc = URLMimeTypeCheck(('video/quicktime', 'video/mpeg',)) try: uc(field_data, all_data) except URLMimeTypeCheck.InvalidContentType: raise ValidationError, _("The URL %s does not point to a valid QuickTime video.") % field_data def isValidURL(field_data, all_data): if not url_re.search(field_data): raise ValidationError, _("A valid URL is required.") def isValidHTML(field_data, all_data): import urllib, urllib2 try: u = urllib2.urlopen('http://validator.w3.org/check', urllib.urlencode({'fragment': field_data, 'output': 'xml'})) except: # Validator or Internet connection is unavailable. Fail silently. return html_is_valid = (u.headers.get('x-w3c-validator-status', 'Invalid') == 'Valid') if html_is_valid: return from xml.dom.minidom import parseString error_messages = [e.firstChild.wholeText for e in parseString(u.read()).getElementsByTagName('messages')[0].getElementsByTagName('msg')] raise ValidationError, _("Valid HTML is required. Specific errors are:\n%s") % "\n".join(error_messages) def isWellFormedXml(field_data, all_data): from xml.dom.minidom import parseString try: parseString(field_data) except Exception, e: # Naked except because we're not sure what will be thrown raise ValidationError, _("Badly formed XML: %s") % str(e) def isWellFormedXmlFragment(field_data, all_data): isWellFormedXml('%s' % field_data, all_data) def isExistingURL(field_data, all_data): try: headers = { "Accept" : "text/xml,application/xml,application/xhtml+xml,text/html;q=0.9,text/plain;q=0.8,image/png,*/*;q=0.5", "Accept-Language" : "en-us,en;q=0.5", "Accept-Charset": "ISO-8859-1,utf-8;q=0.7,*;q=0.7", "Connection" : "close", "User-Agent": settings.URL_VALIDATOR_USER_AGENT } req = urllib2.Request(field_data,None, headers) u = urllib2.urlopen(req) except ValueError: raise ValidationError, _("Invalid URL: %s") % field_data except urllib2.HTTPError, e: # 401s are valid; they just mean authorization is required. # 301 and 302 are redirects; they just mean look somewhere else. if str(e.code) not in ('401','301','302'): raise ValidationError, _("The URL %s is a broken link.") % field_data except: # urllib2.URLError, httplib.InvalidURL, etc. raise ValidationError, _("The URL %s is a broken link.") % field_data def isValidUSState(field_data, all_data): "Checks that the given string is a valid two-letter U.S. state abbreviation" states = ['AA', 'AE', 'AK', 'AL', 'AP', 'AR', 'AS', 'AZ', 'CA', 'CO', 'CT', 'DC', 'DE', 'FL', 'FM', 'GA', 'GU', 'HI', 'IA', 'ID', 'IL', 'IN', 'KS', 'KY', 'LA', 'MA', 'MD', 'ME', 'MH', 'MI', 'MN', 'MO', 'MP', 'MS', 'MT', 'NC', 'ND', 'NE', 'NH', 'NJ', 'NM', 'NV', 'NY', 'OH', 'OK', 'OR', 'PA', 'PR', 'PW', 'RI', 'SC', 'SD', 'TN', 'TX', 'UT', 'VA', 'VI', 'VT', 'WA', 'WI', 'WV', 'WY'] if field_data.upper() not in states: raise ValidationError, _("Enter a valid U.S. state abbreviation.") def hasNoProfanities(field_data, all_data): """ Checks that the given string has no profanities in it. This does a simple check for whether each profanity exists within the string, so 'fuck' will catch 'motherfucker' as well. Raises a ValidationError such as: Watch your mouth! The words "f--k" and "s--t" are not allowed here. """ field_data = field_data.lower() # normalize words_seen = [w for w in settings.PROFANITIES_LIST if w in field_data] if words_seen: from django.utils.text import get_text_list plural = len(words_seen) raise ValidationError, ungettext("Watch your mouth! The word %s is not allowed here.", "Watch your mouth! The words %s are not allowed here.", plural) % \ get_text_list(['"%s%s%s"' % (i[0], '-'*(len(i)-2), i[-1]) for i in words_seen], _('and')) class AlwaysMatchesOtherField(object): def __init__(self, other_field_name, error_message=None): self.other = other_field_name self.error_message = error_message or lazy_inter(ugettext_lazy("This field must match the '%s' field."), self.other) self.always_test = True def __call__(self, field_data, all_data): if field_data != all_data[self.other]: raise ValidationError, self.error_message class ValidateIfOtherFieldEquals(object): def __init__(self, other_field, other_value, validator_list): self.other_field, self.other_value = other_field, other_value self.validator_list = validator_list self.always_test = True def __call__(self, field_data, all_data): if self.other_field in all_data and all_data[self.other_field] == self.other_value: for v in self.validator_list: v(field_data, all_data) class RequiredIfOtherFieldNotGiven(object): def __init__(self, other_field_name, error_message=ugettext_lazy("Please enter something for at least one field.")): self.other, self.error_message = other_field_name, error_message self.always_test = True def __call__(self, field_data, all_data): if not all_data.get(self.other, False) and not field_data: raise ValidationError, self.error_message class RequiredIfOtherFieldsGiven(object): def __init__(self, other_field_names, error_message=ugettext_lazy("Please enter both fields or leave them both empty.")): self.other, self.error_message = other_field_names, error_message self.always_test = True def __call__(self, field_data, all_data): for field in self.other: if all_data.get(field, False) and not field_data: raise ValidationError, self.error_message class RequiredIfOtherFieldGiven(RequiredIfOtherFieldsGiven): "Like RequiredIfOtherFieldsGiven, but takes a single field name instead of a list." def __init__(self, other_field_name, error_message=ugettext_lazy("Please enter both fields or leave them both empty.")): RequiredIfOtherFieldsGiven.__init__(self, [other_field_name], error_message) class RequiredIfOtherFieldEquals(object): def __init__(self, other_field, other_value, error_message=None, other_label=None): self.other_field = other_field self.other_value = other_value other_label = other_label or other_value self.error_message = error_message or lazy_inter(ugettext_lazy("This field must be given if %(field)s is %(value)s"), { 'field': other_field, 'value': other_label}) self.always_test = True def __call__(self, field_data, all_data): if self.other_field in all_data and all_data[self.other_field] == self.other_value and not field_data: raise ValidationError(self.error_message) class RequiredIfOtherFieldDoesNotEqual(object): def __init__(self, other_field, other_value, other_label=None, error_message=None): self.other_field = other_field self.other_value = other_value other_label = other_label or other_value self.error_message = error_message or lazy_inter(ugettext_lazy("This field must be given if %(field)s is not %(value)s"), { 'field': other_field, 'value': other_label}) self.always_test = True def __call__(self, field_data, all_data): if self.other_field in all_data and all_data[self.other_field] != self.other_value and not field_data: raise ValidationError(self.error_message) class IsLessThanOtherField(object): def __init__(self, other_field_name, error_message): self.other, self.error_message = other_field_name, error_message def __call__(self, field_data, all_data): if field_data > all_data[self.other]: raise ValidationError, self.error_message class UniqueAmongstFieldsWithPrefix(object): def __init__(self, field_name, prefix, error_message): self.field_name, self.prefix = field_name, prefix self.error_message = error_message or ugettext_lazy("Duplicate values are not allowed.") def __call__(self, field_data, all_data): for field_name, value in all_data.items(): if field_name != self.field_name and value == field_data: raise ValidationError, self.error_message class NumberIsInRange(object): """ Validator that tests if a value is in a range (inclusive). """ def __init__(self, lower=None, upper=None, error_message=''): self.lower, self.upper = lower, upper if not error_message: if lower and upper: self.error_message = _("This value must be between %(lower)s and %(upper)s.") % {'lower': lower, 'upper': upper} elif lower: self.error_message = _("This value must be at least %s.") % lower elif upper: self.error_message = _("This value must be no more than %s.") % upper else: self.error_message = error_message def __call__(self, field_data, all_data): # Try to make the value numeric. If this fails, we assume another # validator will catch the problem. try: val = float(field_data) except ValueError: return # Now validate if self.lower and self.upper and (val < self.lower or val > self.upper): raise ValidationError(self.error_message) elif self.lower and val < self.lower: raise ValidationError(self.error_message) elif self.upper and val > self.upper: raise ValidationError(self.error_message) class IsAPowerOf(object): """ >>> v = IsAPowerOf(2) >>> v(4, None) >>> v(8, None) >>> v(16, None) >>> v(17, None) django.core.validators.ValidationError: ['This value must be a power of 2.'] """ def __init__(self, power_of): self.power_of = power_of def __call__(self, field_data, all_data): from math import log val = log(int(field_data)) / log(self.power_of) if val != int(val): raise ValidationError, _("This value must be a power of %s.") % self.power_of class IsValidDecimal(object): def __init__(self, max_digits, decimal_places): self.max_digits, self.decimal_places = max_digits, decimal_places def __call__(self, field_data, all_data): try: val = Decimal(field_data) except DecimalException: raise ValidationError, _("Please enter a valid decimal number.") pieces = str(val).lstrip("-").split('.') decimals = (len(pieces) == 2) and len(pieces[1]) or 0 digits = len(pieces[0]) if digits + decimals > self.max_digits: raise ValidationError, ungettext("Please enter a valid decimal number with at most %s total digit.", "Please enter a valid decimal number with at most %s total digits.", self.max_digits) % self.max_digits if digits > (self.max_digits - self.decimal_places): raise ValidationError, ungettext( "Please enter a valid decimal number with a whole part of at most %s digit.", "Please enter a valid decimal number with a whole part of at most %s digits.", str(self.max_digits-self.decimal_places)) % str(self.max_digits-self.decimal_places) if decimals > self.decimal_places: raise ValidationError, ungettext("Please enter a valid decimal number with at most %s decimal place.", "Please enter a valid decimal number with at most %s decimal places.", self.decimal_places) % self.decimal_places def isValidFloat(field_data, all_data): data = str(field_data) try: float(data) except ValueError: raise ValidationError, _("Please enter a valid floating point number.") class HasAllowableSize(object): """ Checks that the file-upload field data is a certain size. min_size and max_size are measurements in bytes. """ def __init__(self, min_size=None, max_size=None, min_error_message=None, max_error_message=None): self.min_size, self.max_size = min_size, max_size self.min_error_message = min_error_message or lazy_inter(ugettext_lazy("Make sure your uploaded file is at least %s bytes big."), min_size) self.max_error_message = max_error_message or lazy_inter(ugettext_lazy("Make sure your uploaded file is at most %s bytes big."), max_size) def __call__(self, field_data, all_data): try: content = field_data['content'] except TypeError: raise ValidationError, ugettext_lazy("No file was submitted. Check the encoding type on the form.") if self.min_size is not None and len(content) < self.min_size: raise ValidationError, self.min_error_message if self.max_size is not None and len(content) > self.max_size: raise ValidationError, self.max_error_message class MatchesRegularExpression(object): """ Checks that the field matches the given regular-expression. The regex should be in string format, not already compiled. """ def __init__(self, regexp, error_message=ugettext_lazy("The format for this field is wrong.")): self.regexp = re.compile(regexp) self.error_message = error_message def __call__(self, field_data, all_data): if not self.regexp.search(field_data): raise ValidationError(self.error_message) class AnyValidator(object): """ This validator tries all given validators. If any one of them succeeds, validation passes. If none of them succeeds, the given message is thrown as a validation error. The message is rather unspecific, so it's best to specify one on instantiation. """ def __init__(self, validator_list=None, error_message=ugettext_lazy("This field is invalid.")): if validator_list is None: validator_list = [] self.validator_list = validator_list self.error_message = error_message for v in validator_list: if hasattr(v, 'always_test'): self.always_test = True def __call__(self, field_data, all_data): for v in self.validator_list: try: v(field_data, all_data) return except ValidationError, e: pass raise ValidationError(self.error_message) class URLMimeTypeCheck(object): "Checks that the provided URL points to a document with a listed mime type" class CouldNotRetrieve(ValidationError): pass class InvalidContentType(ValidationError): pass def __init__(self, mime_type_list): self.mime_type_list = mime_type_list def __call__(self, field_data, all_data): import urllib2 try: isValidURL(field_data, all_data) except ValidationError: raise try: info = urllib2.urlopen(field_data).info() except (urllib2.HTTPError, urllib2.URLError): raise URLMimeTypeCheck.CouldNotRetrieve, _("Could not retrieve anything from %s.") % field_data content_type = info['content-type'] if content_type not in self.mime_type_list: raise URLMimeTypeCheck.InvalidContentType, _("The URL %(url)s returned the invalid Content-Type header '%(contenttype)s'.") % { 'url': field_data, 'contenttype': content_type} class RelaxNGCompact(object): "Validate against a Relax NG compact schema" def __init__(self, schema_path, additional_root_element=None): self.schema_path = schema_path self.additional_root_element = additional_root_element def __call__(self, field_data, all_data): import os, tempfile if self.additional_root_element: field_data = '<%(are)s>%(data)s\n' % { 'are': self.additional_root_element, 'data': field_data } filename = tempfile.mktemp() # Insecure, but nothing else worked fp = open(filename, 'w') fp.write(field_data) fp.close() if not os.path.exists(settings.JING_PATH): raise Exception, "%s not found!" % settings.JING_PATH p = os.popen('%s -c %s %s' % (settings.JING_PATH, self.schema_path, filename)) errors = [line.strip() for line in p.readlines()] p.close() os.unlink(filename) display_errors = [] lines = field_data.split('\n') for error in errors: ignored, line, level, message = error.split(':', 3) # Scrape the Jing error messages to reword them more nicely. m = re.search(r'Expected "(.*?)" to terminate element starting on line (\d+)', message) if m: display_errors.append(_('Please close the unclosed %(tag)s tag from line %(line)s. (Line starts with "%(start)s".)') % \ {'tag':m.group(1).replace('/', ''), 'line':m.group(2), 'start':lines[int(m.group(2)) - 1][:30]}) continue if message.strip() == 'text not allowed here': display_errors.append(_('Some text starting on line %(line)s is not allowed in that context. (Line starts with "%(start)s".)') % \ {'line':line, 'start':lines[int(line) - 1][:30]}) continue m = re.search(r'\s*attribute "(.*?)" not allowed at this point; ignored', message) if m: display_errors.append(_('"%(attr)s" on line %(line)s is an invalid attribute. (Line starts with "%(start)s".)') % \ {'attr':m.group(1), 'line':line, 'start':lines[int(line) - 1][:30]}) continue m = re.search(r'\s*unknown element "(.*?)"', message) if m: display_errors.append(_('"<%(tag)s>" on line %(line)s is an invalid tag. (Line starts with "%(start)s".)') % \ {'tag':m.group(1), 'line':line, 'start':lines[int(line) - 1][:30]}) continue if message.strip() == 'required attributes missing': display_errors.append(_('A tag on line %(line)s is missing one or more required attributes. (Line starts with "%(start)s".)') % \ {'line':line, 'start':lines[int(line) - 1][:30]}) continue m = re.search(r'\s*bad value for attribute "(.*?)"', message) if m: display_errors.append(_('The "%(attr)s" attribute on line %(line)s has an invalid value. (Line starts with "%(start)s".)') % \ {'attr':m.group(1), 'line':line, 'start':lines[int(line) - 1][:30]}) continue # Failing all those checks, use the default error message. display_error = 'Line %s: %s [%s]' % (line, message, level.strip()) display_errors.append(display_error) if len(display_errors) > 0: raise ValidationError, display_errors