| Current File : //proc/self/root/lib/python3/dist-packages/twisted/web/test/test_http_headers.py |
# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.
"""
Tests for L{twisted.web.http_headers}.
"""
from __future__ import annotations
from typing import Sequence
from twisted.trial.unittest import TestCase
from twisted.web.http_headers import Headers
from twisted.web.test.requesthelper import (
bytesLinearWhitespaceComponents,
sanitizedBytes,
textLinearWhitespaceComponents,
)
def assertSanitized(
testCase: TestCase, components: Sequence[bytes] | Sequence[str], expected: bytes
) -> None:
"""
Assert that the components are sanitized to the expected value as
both a header name and value, across all of L{Header}'s setters
and getters.
@param testCase: A test case.
@param components: A sequence of values that contain linear
whitespace to use as header names and values; see
C{textLinearWhitespaceComponents} and
C{bytesLinearWhitespaceComponents}
@param expected: The expected sanitized form of the component for
both headers names and their values.
"""
for component in components:
headers = []
headers.append(Headers({component: [component]})) # type: ignore[type-var]
added = Headers()
added.addRawHeader(component, component)
headers.append(added)
setHeader = Headers()
setHeader.setRawHeaders(component, [component])
headers.append(setHeader)
for header in headers:
testCase.assertEqual(
list(header.getAllRawHeaders()), [(expected, [expected])]
)
testCase.assertEqual(header.getRawHeaders(expected), [expected])
class BytesHeadersTests(TestCase):
"""
Tests for L{Headers}, using L{bytes} arguments for methods.
"""
def test_sanitizeLinearWhitespace(self) -> None:
"""
Linear whitespace in header names or values is replaced with a
single space.
"""
assertSanitized(self, bytesLinearWhitespaceComponents, sanitizedBytes)
def test_initializer(self) -> None:
"""
The header values passed to L{Headers.__init__} can be retrieved via
L{Headers.getRawHeaders}.
"""
h = Headers({b"Foo": [b"bar"]})
self.assertEqual(h.getRawHeaders(b"foo"), [b"bar"])
def test_setRawHeaders(self) -> None:
"""
L{Headers.setRawHeaders} sets the header values for the given
header name to the sequence of byte string values.
"""
rawValue = [b"value1", b"value2"]
h = Headers()
h.setRawHeaders(b"test", rawValue)
self.assertTrue(h.hasHeader(b"test"))
self.assertTrue(h.hasHeader(b"Test"))
self.assertEqual(h.getRawHeaders(b"test"), rawValue)
def test_rawHeadersTypeCheckingValuesIterable(self) -> None:
"""
L{Headers.setRawHeaders} requires values to be of type list.
"""
h = Headers()
self.assertRaises(TypeError, h.setRawHeaders, b"key", {b"Foo": b"bar"})
def test_rawHeadersTypeCheckingName(self) -> None:
"""
L{Headers.setRawHeaders} requires C{name} to be a L{bytes} or
L{str} string.
"""
h = Headers()
e = self.assertRaises(TypeError, h.setRawHeaders, None, [b"foo"])
self.assertEqual(
e.args[0],
"Header name is an instance of <class 'NoneType'>, " "not bytes or str",
)
def test_rawHeadersTypeCheckingValuesAreString(self) -> None:
"""
L{Headers.setRawHeaders} requires values to a L{list} of L{bytes} or
L{str} strings.
"""
h = Headers()
e = self.assertRaises(TypeError, h.setRawHeaders, b"key", [b"bar", None])
self.assertEqual(
e.args[0],
"Header value at position 1 is an instance of <class 'NoneType'>, "
"not bytes or str",
)
def test_addRawHeader(self) -> None:
"""
L{Headers.addRawHeader} adds a new value for a given header.
"""
h = Headers()
h.addRawHeader(b"test", b"lemur")
self.assertEqual(h.getRawHeaders(b"test"), [b"lemur"])
h.addRawHeader(b"test", b"panda")
self.assertEqual(h.getRawHeaders(b"test"), [b"lemur", b"panda"])
def test_addRawHeaderTypeCheckName(self) -> None:
"""
L{Headers.addRawHeader} requires C{name} to be a L{bytes} or L{str}
string.
"""
h = Headers()
e = self.assertRaises(TypeError, h.addRawHeader, None, b"foo")
self.assertEqual(
e.args[0],
"Header name is an instance of <class 'NoneType'>, " "not bytes or str",
)
def test_addRawHeaderTypeCheckValue(self) -> None:
"""
L{Headers.addRawHeader} requires value to be a L{bytes} or L{str}
string.
"""
h = Headers()
e = self.assertRaises(TypeError, h.addRawHeader, b"key", None)
self.assertEqual(
e.args[0],
"Header value is an instance of <class 'NoneType'>, " "not bytes or str",
)
def test_getRawHeadersNoDefault(self) -> None:
"""
L{Headers.getRawHeaders} returns L{None} if the header is not found and
no default is specified.
"""
self.assertIsNone(Headers().getRawHeaders(b"test"))
def test_getRawHeadersDefaultValue(self) -> None:
"""
L{Headers.getRawHeaders} returns the specified default value when no
header is found.
"""
h = Headers()
default = object()
self.assertIdentical(h.getRawHeaders(b"test", default), default)
def test_getRawHeadersWithDefaultMatchingValue(self) -> None:
"""
If the object passed as the value list to L{Headers.setRawHeaders}
is later passed as a default to L{Headers.getRawHeaders}, the
result nevertheless contains encoded values.
"""
h = Headers()
default = ["value"]
h.setRawHeaders(b"key", default)
self.assertIsInstance(h.getRawHeaders(b"key", default)[0], bytes)
self.assertEqual(h.getRawHeaders(b"key", default), [b"value"])
def test_getRawHeaders(self) -> None:
"""
L{Headers.getRawHeaders} returns the values which have been set for a
given header.
"""
h = Headers()
h.setRawHeaders(b"test", [b"lemur"])
self.assertEqual(h.getRawHeaders(b"test"), [b"lemur"])
self.assertEqual(h.getRawHeaders(b"Test"), [b"lemur"])
def test_hasHeaderTrue(self) -> None:
"""
Check that L{Headers.hasHeader} returns C{True} when the given header
is found.
"""
h = Headers()
h.setRawHeaders(b"test", [b"lemur"])
self.assertTrue(h.hasHeader(b"test"))
self.assertTrue(h.hasHeader(b"Test"))
def test_hasHeaderFalse(self) -> None:
"""
L{Headers.hasHeader} returns C{False} when the given header is not
found.
"""
self.assertFalse(Headers().hasHeader(b"test"))
def test_removeHeader(self) -> None:
"""
Check that L{Headers.removeHeader} removes the given header.
"""
h = Headers()
h.setRawHeaders(b"foo", [b"lemur"])
self.assertTrue(h.hasHeader(b"foo"))
h.removeHeader(b"foo")
self.assertFalse(h.hasHeader(b"foo"))
h.setRawHeaders(b"bar", [b"panda"])
self.assertTrue(h.hasHeader(b"bar"))
h.removeHeader(b"Bar")
self.assertFalse(h.hasHeader(b"bar"))
def test_removeHeaderDoesntExist(self) -> None:
"""
L{Headers.removeHeader} is a no-operation when the specified header is
not found.
"""
h = Headers()
h.removeHeader(b"test")
self.assertEqual(list(h.getAllRawHeaders()), [])
def test_canonicalNameCaps(self) -> None:
"""
L{Headers._canonicalNameCaps} returns the canonical capitalization for
the given header.
"""
h = Headers()
self.assertEqual(h._canonicalNameCaps(b"test"), b"Test")
self.assertEqual(h._canonicalNameCaps(b"test-stuff"), b"Test-Stuff")
self.assertEqual(h._canonicalNameCaps(b"content-md5"), b"Content-MD5")
self.assertEqual(h._canonicalNameCaps(b"dnt"), b"DNT")
self.assertEqual(h._canonicalNameCaps(b"etag"), b"ETag")
self.assertEqual(h._canonicalNameCaps(b"p3p"), b"P3P")
self.assertEqual(h._canonicalNameCaps(b"te"), b"TE")
self.assertEqual(h._canonicalNameCaps(b"www-authenticate"), b"WWW-Authenticate")
self.assertEqual(h._canonicalNameCaps(b"x-xss-protection"), b"X-XSS-Protection")
def test_getAllRawHeaders(self) -> None:
"""
L{Headers.getAllRawHeaders} returns an iterable of (k, v) pairs, where
C{k} is the canonicalized representation of the header name, and C{v}
is a sequence of values.
"""
h = Headers()
h.setRawHeaders(b"test", [b"lemurs"])
h.setRawHeaders(b"www-authenticate", [b"basic aksljdlk="])
allHeaders = {(k, tuple(v)) for k, v in h.getAllRawHeaders()}
self.assertEqual(
allHeaders,
{(b"WWW-Authenticate", (b"basic aksljdlk=",)), (b"Test", (b"lemurs",))},
)
def test_headersComparison(self) -> None:
"""
A L{Headers} instance compares equal to itself and to another
L{Headers} instance with the same values.
"""
first = Headers()
first.setRawHeaders(b"foo", [b"panda"])
second = Headers()
second.setRawHeaders(b"foo", [b"panda"])
third = Headers()
third.setRawHeaders(b"foo", [b"lemur", b"panda"])
self.assertEqual(first, first)
self.assertEqual(first, second)
self.assertNotEqual(first, third)
def test_otherComparison(self) -> None:
"""
An instance of L{Headers} does not compare equal to other unrelated
objects.
"""
h = Headers()
self.assertNotEqual(h, ())
self.assertNotEqual(h, object())
self.assertNotEqual(h, b"foo")
def test_repr(self) -> None:
"""
The L{repr} of a L{Headers} instance shows the names and values of all
the headers it contains.
"""
foo = b"foo"
bar = b"bar"
baz = b"baz"
self.assertEqual(
repr(Headers({foo: [bar, baz]})),
f"Headers({{{foo!r}: [{bar!r}, {baz!r}]}})",
)
def test_reprWithRawBytes(self) -> None:
"""
The L{repr} of a L{Headers} instance shows the names and values of all
the headers it contains, not attempting to decode any raw bytes.
"""
# There's no such thing as undecodable latin-1, you'll just get
# some mojibake
foo = b"foo"
# But this is invalid UTF-8! So, any accidental decoding/encoding will
# throw an exception.
bar = b"bar\xe1"
baz = b"baz\xe1"
self.assertEqual(
repr(Headers({foo: [bar, baz]})),
f"Headers({{{foo!r}: [{bar!r}, {baz!r}]}})",
)
def test_subclassRepr(self) -> None:
"""
The L{repr} of an instance of a subclass of L{Headers} uses the name
of the subclass instead of the string C{"Headers"}.
"""
foo = b"foo"
bar = b"bar"
baz = b"baz"
class FunnyHeaders(Headers):
pass
self.assertEqual(
repr(FunnyHeaders({foo: [bar, baz]})),
f"FunnyHeaders({{{foo!r}: [{bar!r}, {baz!r}]}})",
)
def test_copy(self) -> None:
"""
L{Headers.copy} creates a new independent copy of an existing
L{Headers} instance, allowing future modifications without impacts
between the copies.
"""
h = Headers()
h.setRawHeaders(b"test", [b"foo"])
i = h.copy()
self.assertEqual(i.getRawHeaders(b"test"), [b"foo"])
h.addRawHeader(b"test", b"bar")
self.assertEqual(i.getRawHeaders(b"test"), [b"foo"])
i.addRawHeader(b"test", b"baz")
self.assertEqual(h.getRawHeaders(b"test"), [b"foo", b"bar"])
class UnicodeHeadersTests(TestCase):
"""
Tests for L{Headers}, using L{str} arguments for methods.
"""
def test_sanitizeLinearWhitespace(self) -> None:
"""
Linear whitespace in header names or values is replaced with a
single space.
"""
assertSanitized(self, textLinearWhitespaceComponents, sanitizedBytes)
def test_initializer(self) -> None:
"""
The header values passed to L{Headers.__init__} can be retrieved via
L{Headers.getRawHeaders}. If a L{bytes} argument is given, it returns
L{bytes} values, and if a L{str} argument is given, it returns
L{str} values. Both are the same header value, just encoded or
decoded.
"""
h = Headers({"Foo": ["bar"]})
self.assertEqual(h.getRawHeaders(b"foo"), [b"bar"])
self.assertEqual(h.getRawHeaders("foo"), ["bar"])
def test_setRawHeaders(self) -> None:
"""
L{Headers.setRawHeaders} sets the header values for the given
header name to the sequence of strings, encoded.
"""
rawValue = ["value1", "value2"]
rawEncodedValue = [b"value1", b"value2"]
h = Headers()
h.setRawHeaders("test", rawValue)
self.assertTrue(h.hasHeader(b"test"))
self.assertTrue(h.hasHeader(b"Test"))
self.assertTrue(h.hasHeader("test"))
self.assertTrue(h.hasHeader("Test"))
self.assertEqual(h.getRawHeaders("test"), rawValue)
self.assertEqual(h.getRawHeaders(b"test"), rawEncodedValue)
def test_nameNotEncodable(self) -> None:
"""
Passing L{str} to any function that takes a header name will encode
said header name as ISO-8859-1, and if it cannot be encoded, it will
raise a L{UnicodeDecodeError}.
"""
h = Headers()
# Only these two functions take names
with self.assertRaises(UnicodeEncodeError):
h.setRawHeaders("\u2603", ["val"])
with self.assertRaises(UnicodeEncodeError):
h.hasHeader("\u2603")
def test_nameEncoding(self) -> None:
"""
Passing L{str} to any function that takes a header name will encode
said header name as ISO-8859-1.
"""
h = Headers()
# We set it using a Unicode string.
h.setRawHeaders("\u00E1", [b"foo"])
# It's encoded to the ISO-8859-1 value, which we can use to access it
self.assertTrue(h.hasHeader(b"\xe1"))
self.assertEqual(h.getRawHeaders(b"\xe1"), [b"foo"])
# We can still access it using the Unicode string..
self.assertTrue(h.hasHeader("\u00E1"))
def test_rawHeadersValueEncoding(self) -> None:
"""
Passing L{str} to L{Headers.setRawHeaders} will encode the name as
ISO-8859-1 and values as UTF-8.
"""
h = Headers()
h.setRawHeaders("\u00E1", ["\u2603", b"foo"])
self.assertTrue(h.hasHeader(b"\xe1"))
self.assertEqual(h.getRawHeaders(b"\xe1"), [b"\xe2\x98\x83", b"foo"])
def test_rawHeadersTypeChecking(self) -> None:
"""
L{Headers.setRawHeaders} requires values to be of type sequence
"""
h = Headers()
self.assertRaises(TypeError, h.setRawHeaders, "key", {"Foo": "bar"})
def test_addRawHeader(self) -> None:
"""
L{Headers.addRawHeader} adds a new value for a given header.
"""
h = Headers()
h.addRawHeader("test", "lemur")
self.assertEqual(h.getRawHeaders("test"), ["lemur"])
h.addRawHeader("test", "panda")
self.assertEqual(h.getRawHeaders("test"), ["lemur", "panda"])
self.assertEqual(h.getRawHeaders(b"test"), [b"lemur", b"panda"])
def test_getRawHeadersNoDefault(self) -> None:
"""
L{Headers.getRawHeaders} returns L{None} if the header is not found and
no default is specified.
"""
self.assertIsNone(Headers().getRawHeaders("test"))
def test_getRawHeadersDefaultValue(self) -> None:
"""
L{Headers.getRawHeaders} returns the specified default value when no
header is found.
"""
h = Headers()
default = object()
self.assertIdentical(h.getRawHeaders("test", default), default)
self.assertIdentical(h.getRawHeaders("test", None), None)
self.assertEqual(h.getRawHeaders("test", [None]), [None])
self.assertEqual(
h.getRawHeaders("test", ["\N{SNOWMAN}"]),
["\N{SNOWMAN}"],
)
def test_getRawHeadersWithDefaultMatchingValue(self) -> None:
"""
If the object passed as the value list to L{Headers.setRawHeaders}
is later passed as a default to L{Headers.getRawHeaders}, the
result nevertheless contains decoded values.
"""
h = Headers()
default = [b"value"]
h.setRawHeaders(b"key", default)
self.assertIsInstance(h.getRawHeaders("key", default)[0], str)
self.assertEqual(h.getRawHeaders("key", default), ["value"])
def test_getRawHeaders(self) -> None:
"""
L{Headers.getRawHeaders} returns the values which have been set for a
given header.
"""
h = Headers()
h.setRawHeaders("test\u00E1", ["lemur"])
self.assertEqual(h.getRawHeaders("test\u00E1"), ["lemur"])
self.assertEqual(h.getRawHeaders("Test\u00E1"), ["lemur"])
self.assertEqual(h.getRawHeaders(b"test\xe1"), [b"lemur"])
self.assertEqual(h.getRawHeaders(b"Test\xe1"), [b"lemur"])
def test_hasHeaderTrue(self) -> None:
"""
Check that L{Headers.hasHeader} returns C{True} when the given header
is found.
"""
h = Headers()
h.setRawHeaders("test\u00E1", ["lemur"])
self.assertTrue(h.hasHeader("test\u00E1"))
self.assertTrue(h.hasHeader("Test\u00E1"))
self.assertTrue(h.hasHeader(b"test\xe1"))
self.assertTrue(h.hasHeader(b"Test\xe1"))
def test_hasHeaderFalse(self) -> None:
"""
L{Headers.hasHeader} returns C{False} when the given header is not
found.
"""
self.assertFalse(Headers().hasHeader("test\u00E1"))
def test_removeHeader(self) -> None:
"""
Check that L{Headers.removeHeader} removes the given header.
"""
h = Headers()
h.setRawHeaders("foo", ["lemur"])
self.assertTrue(h.hasHeader("foo"))
h.removeHeader("foo")
self.assertFalse(h.hasHeader("foo"))
self.assertFalse(h.hasHeader(b"foo"))
h.setRawHeaders("bar", ["panda"])
self.assertTrue(h.hasHeader("bar"))
h.removeHeader("Bar")
self.assertFalse(h.hasHeader("bar"))
self.assertFalse(h.hasHeader(b"bar"))
def test_removeHeaderDoesntExist(self) -> None:
"""
L{Headers.removeHeader} is a no-operation when the specified header is
not found.
"""
h = Headers()
h.removeHeader("test")
self.assertEqual(list(h.getAllRawHeaders()), [])
def test_getAllRawHeaders(self) -> None:
"""
L{Headers.getAllRawHeaders} returns an iterable of (k, v) pairs, where
C{k} is the canonicalized representation of the header name, and C{v}
is a sequence of values.
"""
h = Headers()
h.setRawHeaders("test\u00E1", ["lemurs"])
h.setRawHeaders("www-authenticate", ["basic aksljdlk="])
h.setRawHeaders("content-md5", ["kjdfdfgdfgnsd"])
allHeaders = {(k, tuple(v)) for k, v in h.getAllRawHeaders()}
self.assertEqual(
allHeaders,
{
(b"WWW-Authenticate", (b"basic aksljdlk=",)),
(b"Content-MD5", (b"kjdfdfgdfgnsd",)),
(b"Test\xe1", (b"lemurs",)),
},
)
def test_headersComparison(self) -> None:
"""
A L{Headers} instance compares equal to itself and to another
L{Headers} instance with the same values.
"""
first = Headers()
first.setRawHeaders("foo\u00E1", ["panda"])
second = Headers()
second.setRawHeaders("foo\u00E1", ["panda"])
third = Headers()
third.setRawHeaders("foo\u00E1", ["lemur", "panda"])
self.assertEqual(first, first)
self.assertEqual(first, second)
self.assertNotEqual(first, third)
# Headers instantiated with bytes equivs are also the same
firstBytes = Headers()
firstBytes.setRawHeaders(b"foo\xe1", [b"panda"])
secondBytes = Headers()
secondBytes.setRawHeaders(b"foo\xe1", [b"panda"])
thirdBytes = Headers()
thirdBytes.setRawHeaders(b"foo\xe1", [b"lemur", "panda"])
self.assertEqual(first, firstBytes)
self.assertEqual(second, secondBytes)
self.assertEqual(third, thirdBytes)
def test_otherComparison(self) -> None:
"""
An instance of L{Headers} does not compare equal to other unrelated
objects.
"""
h = Headers()
self.assertNotEqual(h, ())
self.assertNotEqual(h, object())
self.assertNotEqual(h, "foo")
def test_repr(self) -> None:
"""
The L{repr} of a L{Headers} instance shows the names and values of all
the headers it contains. This shows only reprs of bytes values, as
undecodable headers may cause an exception.
"""
foo = "foo\u00E1"
bar = "bar\u2603"
baz = "baz"
fooEncoded = "'foo\\xe1'"
barEncoded = "'bar\\xe2\\x98\\x83'"
fooEncoded = "b" + fooEncoded
barEncoded = "b" + barEncoded
self.assertEqual(
repr(Headers({foo: [bar, baz]})),
"Headers({{{}: [{}, {!r}]}})".format(
fooEncoded, barEncoded, baz.encode("utf8")
),
)
def test_subclassRepr(self) -> None:
"""
The L{repr} of an instance of a subclass of L{Headers} uses the name
of the subclass instead of the string C{"Headers"}.
"""
foo = "foo\u00E1"
bar = "bar\u2603"
baz = "baz"
fooEncoded = "b'foo\\xe1'"
barEncoded = "b'bar\\xe2\\x98\\x83'"
class FunnyHeaders(Headers):
pass
self.assertEqual(
repr(FunnyHeaders({foo: [bar, baz]})),
"FunnyHeaders({%s: [%s, %r]})"
% (fooEncoded, barEncoded, baz.encode("utf8")),
)
def test_copy(self) -> None:
"""
L{Headers.copy} creates a new independent copy of an existing
L{Headers} instance, allowing future modifications without impacts
between the copies.
"""
h = Headers()
h.setRawHeaders("test\u00E1", ["foo\u2603"])
i = h.copy()
# The copy contains the same value as the original
self.assertEqual(i.getRawHeaders("test\u00E1"), ["foo\u2603"])
self.assertEqual(i.getRawHeaders(b"test\xe1"), [b"foo\xe2\x98\x83"])
# Add a header to the original
h.addRawHeader("test\u00E1", "bar")
# Verify that the copy has not changed
self.assertEqual(i.getRawHeaders("test\u00E1"), ["foo\u2603"])
self.assertEqual(i.getRawHeaders(b"test\xe1"), [b"foo\xe2\x98\x83"])
# Add a header to the copy
i.addRawHeader("test\u00E1", b"baz")
# Verify that the orignal does not have it
self.assertEqual(h.getRawHeaders("test\u00E1"), ["foo\u2603", "bar"])
self.assertEqual(h.getRawHeaders(b"test\xe1"), [b"foo\xe2\x98\x83", b"bar"])
class MixedHeadersTests(TestCase):
"""
Tests for L{Headers}, mixing L{bytes} and L{str} arguments for methods
where that is permitted.
"""
def test_addRawHeader(self) -> None:
"""
L{Headers.addRawHeader} accepts mixed L{str} and L{bytes}.
"""
h = Headers()
h.addRawHeader(b"bytes", "str")
h.addRawHeader("str", b"bytes")
self.assertEqual(h.getRawHeaders(b"Bytes"), [b"str"])
self.assertEqual(h.getRawHeaders("Str"), ["bytes"])
def test_setRawHeaders(self) -> None:
"""
L{Headers.setRawHeaders} accepts mixed L{str} and L{bytes}.
"""
h = Headers()
h.setRawHeaders(b"bytes", [b"bytes"])
h.setRawHeaders("str", ["str"])
h.setRawHeaders("mixed-str", [b"bytes", "str"])
h.setRawHeaders(b"mixed-bytes", ["str", b"bytes"])
self.assertEqual(h.getRawHeaders(b"Bytes"), [b"bytes"])
self.assertEqual(h.getRawHeaders("Str"), ["str"])
self.assertEqual(h.getRawHeaders("Mixed-Str"), ["bytes", "str"])
self.assertEqual(h.getRawHeaders(b"Mixed-Bytes"), [b"str", b"bytes"])