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|
from __future__ import annotations
import email.message
import inspect
import pathlib
import textwrap
import pytest
from packaging import metadata, requirements, specifiers, utils, version
from packaging.metadata import ExceptionGroup, RawMetadata
class TestRawMetadata:
@pytest.mark.parametrize("raw_field", sorted(metadata._STRING_FIELDS))
def test_non_repeating_fields_only_once(self, raw_field: str) -> None:
data = "VaLuE"
header_field = metadata._RAW_TO_EMAIL_MAPPING[raw_field]
single_header = f"{header_field}: {data}"
raw, unparsed = metadata.parse_email(single_header)
assert not unparsed
assert len(raw) == 1
assert raw_field in raw
assert raw[raw_field] == data # type: ignore[literal-required]
@pytest.mark.parametrize("raw_field", sorted(metadata._STRING_FIELDS))
def test_non_repeating_fields_repeated(self, raw_field: str) -> None:
header_field = metadata._RAW_TO_EMAIL_MAPPING[raw_field]
data = "VaLuE"
single_header = f"{header_field}: {data}"
repeated_header = "\n".join([single_header] * 2)
raw, unparsed = metadata.parse_email(repeated_header)
assert not raw
assert len(unparsed) == 1
assert header_field in unparsed
assert unparsed[header_field] == [data] * 2
@pytest.mark.parametrize("raw_field", sorted(metadata._LIST_FIELDS))
def test_repeating_fields_only_once(self, raw_field: str) -> None:
data = "VaLuE"
header_field = metadata._RAW_TO_EMAIL_MAPPING[raw_field]
single_header = f"{header_field}: {data}"
raw, unparsed = metadata.parse_email(single_header)
assert not unparsed
assert len(raw) == 1
assert raw_field in raw
assert raw[raw_field] == [data] # type: ignore[literal-required]
@pytest.mark.parametrize("raw_field", sorted(metadata._LIST_FIELDS))
def test_repeating_fields_repeated(self, raw_field: str) -> None:
header_field = metadata._RAW_TO_EMAIL_MAPPING[raw_field]
data = "VaLuE"
single_header = f"{header_field}: {data}"
repeated_header = "\n".join([single_header] * 2)
raw, unparsed = metadata.parse_email(repeated_header)
assert not unparsed
assert len(raw) == 1
assert raw_field in raw
assert raw[raw_field] == [data] * 2 # type: ignore[literal-required]
@pytest.mark.parametrize(
("given", "expected"),
[
("A", ["A"]),
("A ", ["A"]),
(" A", ["A"]),
("A, B", ["A", "B"]),
("A,B", ["A", "B"]),
(" A, B", ["A", "B"]),
("A,B ", ["A", "B"]),
("A B", ["A B"]),
],
)
def test_keywords(self, given: str, expected: list[str]) -> None:
header = f"Keywords: {given}"
raw, unparsed = metadata.parse_email(header)
assert not unparsed
assert len(raw) == 1
assert "keywords" in raw
assert raw["keywords"] == expected
@pytest.mark.parametrize(
("given", "expected"),
[
("", {"": ""}),
("A", {"A": ""}),
("A,B", {"A": "B"}),
("A, B", {"A": "B"}),
(" A,B", {"A": "B"}),
("A,B ", {"A": "B"}),
("A,B,C", {"A": "B,C"}),
],
)
def test_project_urls_parsing(self, given: str, expected: dict[str, str]) -> None:
header = f"project-url: {given}"
raw, unparsed = metadata.parse_email(header)
assert not unparsed
assert len(raw) == 1
assert "project_urls" in raw
assert raw["project_urls"] == expected
def test_duplicate_project_urls(self) -> None:
header = "project-url: A, B\nproject-url: A, C"
raw, unparsed = metadata.parse_email(header)
assert not raw
assert len(unparsed) == 1
assert "project-url" in unparsed
assert unparsed["project-url"] == ["A, B", "A, C"]
def test_str_input(self) -> None:
name = "Tarek Ziadé"
header = f"author: {name}"
raw, unparsed = metadata.parse_email(header)
assert not unparsed
assert len(raw) == 1
assert "author" in raw
assert raw["author"] == name
def test_bytes_input(self) -> None:
name = "Tarek Ziadé"
header = f"author: {name}".encode()
raw, unparsed = metadata.parse_email(header)
assert not unparsed
assert len(raw) == 1
assert "author" in raw
assert raw["author"] == name
def test_header_mojibake(self) -> None:
value = "\xc0msterdam"
header_name = "value"
header_bytes = f"{header_name}: {value}".encode("latin1")
raw, unparsed = metadata.parse_email(header_bytes)
# Sanity check
with pytest.raises(UnicodeDecodeError):
header_bytes.decode("utf-8")
assert not raw
assert len(unparsed) == 1
assert header_name in unparsed
assert unparsed[header_name] == [value]
@pytest.mark.parametrize("given", ["hello", "description: hello", b"hello"])
def test_description(self, given: str | bytes) -> None:
raw, unparsed = metadata.parse_email(given)
assert not unparsed
assert len(raw) == 1
assert "description" in raw
assert raw["description"] == "hello"
def test_description_non_utf8(self) -> None:
header = "\xc0msterdam"
header_bytes = header.encode("latin1")
raw, unparsed = metadata.parse_email(header_bytes)
assert not raw
assert len(unparsed) == 1
assert "description" in unparsed
# TODO: type annotations are not happy about this, investigate.
assert unparsed["description"] == [header_bytes] # type: ignore[comparison-overlap]
@pytest.mark.parametrize(
("given", "expected"),
[
("description: 1\ndescription: 2", ["1", "2"]),
("description: 1\n\n2", ["1", "2"]),
("description: 1\ndescription: 2\n\n3", ["1", "2", "3"]),
],
)
def test_description_multiple(
self, given: str | bytes, expected: list[str]
) -> None:
raw, unparsed = metadata.parse_email(given)
assert not raw
assert len(unparsed) == 1
assert "description" in unparsed
assert unparsed["description"] == expected
def test_lowercase_keys(self) -> None:
header = "AUTHOR: Tarek Ziadé\nWhatever: Else"
raw, unparsed = metadata.parse_email(header)
assert len(raw) == 1
assert "author" in raw
assert len(unparsed) == 1
assert "whatever" in unparsed
def test_complete(self) -> None:
"""Test all fields (except `Obsoletes-Dist`).
`Obsoletes-Dist` was sacrificed to provide a value for `Dynamic`.
"""
path = pathlib.Path(__file__).parent / "metadata" / "everything.metadata"
with path.open("r", encoding="utf-8") as file:
metadata_contents = file.read()
raw, unparsed = metadata.parse_email(metadata_contents)
assert len(unparsed) == 1 # "ThisIsNotReal" key
assert unparsed["thisisnotreal"] == ["Hello!"]
assert len(raw) == 28
assert raw["metadata_version"] == "2.5"
assert raw["name"] == "BeagleVote"
assert raw["version"] == "1.0a2"
assert raw["platforms"] == ["ObscureUnix", "RareDOS"]
assert raw["supported_platforms"] == ["RedHat 7.2", "i386-win32-2791"]
assert raw["summary"] == "A module for collecting votes from beagles."
assert (
raw["description_content_type"]
== "text/markdown; charset=UTF-8; variant=GFM"
)
assert raw["keywords"] == ["dog", "puppy", "voting", "election"]
assert raw["home_page"] == "http://www.example.com/~cschultz/bvote/"
assert raw["download_url"] == "…/BeagleVote-0.45.tgz"
assert raw["author"] == (
"C. Schultz, Universal Features Syndicate,\n"
" Los Angeles, CA <cschultz@peanuts.example.com>"
)
assert raw["author_email"] == '"C. Schultz" <cschultz@example.com>'
assert raw["maintainer"] == (
"C. Schultz, Universal Features Syndicate,\n"
" Los Angeles, CA <cschultz@peanuts.example.com>"
)
assert raw["maintainer_email"] == '"C. Schultz" <cschultz@example.com>'
assert raw["license"] == (
"This software may only be obtained by sending the\n"
" author a postcard, and then the user promises not\n"
" to redistribute it."
)
assert raw["license_expression"] == "Apache-2.0 OR BSD-2-Clause"
assert raw["license_files"] == ["LICENSE.APACHE", "LICENSE.BSD"]
assert raw["classifiers"] == [
"Development Status :: 4 - Beta",
"Environment :: Console (Text Based)",
]
assert raw["provides_extra"] == ["pdf"]
assert raw["requires_dist"] == [
"reportlab; extra == 'pdf'",
"pkginfo",
"PasteDeploy",
"zope.interface (>3.5.0)",
"pywin32 >1.0; sys_platform == 'win32'",
]
assert raw["requires_python"] == ">=3"
assert raw["requires_external"] == [
"C",
"libpng (>=1.5)",
'make; sys_platform != "win32"',
]
assert raw["project_urls"] == {
"Bug Tracker": "http://bitbucket.org/tarek/distribute/issues/",
"Documentation": "https://example.com/BeagleVote",
}
assert raw["provides_dist"] == [
"OtherProject",
"AnotherProject (3.4)",
'virtual_package; python_version >= "3.4"',
]
assert raw["dynamic"] == ["Obsoletes-Dist"]
assert raw["description"] == "This description intentionally left blank.\n"
assert raw["import_names"] == ["beaglevote", "_beaglevote ; private"]
assert raw["import_namespaces"] == ["spam", "_bacon ; private"]
class TestExceptionGroup:
def test_attributes(self) -> None:
individual_exception = Exception("not important")
exc = metadata.ExceptionGroup("message", [individual_exception])
assert exc.message == "message"
assert list(exc.exceptions) == [individual_exception]
def test_repr(self) -> None:
individual_exception = RuntimeError("not important")
exc = metadata.ExceptionGroup("message", [individual_exception])
assert individual_exception.__class__.__name__ in repr(exc)
_RAW_EXAMPLE: RawMetadata = {
"metadata_version": "2.5",
"name": "packaging",
"version": "2023.0.0",
}
class TestMetadata:
def _invalid_with_cause(
self,
meta: metadata.Metadata,
attr: str,
cause: type[BaseException] | None = None,
*,
field: str | None = None,
) -> None:
if field is None:
field = attr
with pytest.raises(metadata.InvalidMetadata) as exc_info:
getattr(meta, attr)
exc = exc_info.value
assert exc.field == field
if cause is None:
assert exc.__cause__ is None
else:
assert isinstance(exc.__cause__, cause)
def test_from_email(self) -> None:
metadata_version = "2.5"
meta = metadata.Metadata.from_email(
f"Metadata-Version: {metadata_version}", validate=False
)
assert meta.metadata_version == metadata_version
assert meta.import_names is None
def test_from_email_empty_import_name(self) -> None:
meta = metadata.Metadata.from_email(
"Metadata-Version: 2.5\nImport-Name:\n", validate=False
)
assert meta.import_names == []
def test_from_email_unparsed(self) -> None:
with pytest.raises(ExceptionGroup) as exc_info:
metadata.Metadata.from_email("Hello: PyPA")
assert len(exc_info.value.exceptions) == 1
assert isinstance(exc_info.value.exceptions[0], metadata.InvalidMetadata)
def test_from_email_validate(self) -> None:
with pytest.raises(ExceptionGroup):
# Lacking all required fields.
metadata.Metadata.from_email("Name: packaging", validate=True)
def test_from_email_unparsed_valid_field_name(self) -> None:
with pytest.raises(ExceptionGroup):
metadata.Metadata.from_email(
"Project-URL: A, B\nProject-URL: A, C", validate=True
)
def test_required_fields(self) -> None:
meta = metadata.Metadata.from_raw(_RAW_EXAMPLE)
assert meta.metadata_version == _RAW_EXAMPLE["metadata_version"]
@pytest.mark.parametrize("field", list(_RAW_EXAMPLE.keys()))
def test_required_fields_missing(self, field: str) -> None:
required_fields = _RAW_EXAMPLE.copy()
del required_fields[field] # type: ignore[misc]
with pytest.raises(ExceptionGroup):
metadata.Metadata.from_raw(required_fields)
def test_raw_validate_unrecognized_field(self) -> None:
raw: RawMetadata = {
"metadata_version": "2.3",
"name": "packaging",
"version": "2023.0.0",
}
# Safety check (always true)
assert metadata.Metadata.from_raw(raw, validate=True) # type: ignore[truthy-bool]
# Misspelled; missing an "i":
raw["dynamc"] = ["Obsoletes-Dist"] # type: ignore[typeddict-unknown-key]
with pytest.raises(ExceptionGroup):
metadata.Metadata.from_raw(raw, validate=True)
def test_raw_data_not_mutated(self) -> None:
raw = _RAW_EXAMPLE.copy()
meta = metadata.Metadata.from_raw(raw, validate=True)
assert meta.version == version.Version(_RAW_EXAMPLE["version"])
assert raw == _RAW_EXAMPLE
def test_caching(self) -> None:
meta = metadata.Metadata.from_raw(_RAW_EXAMPLE, validate=True)
assert meta.version is meta.version
def test_from_raw_validate(self) -> None:
required_fields = _RAW_EXAMPLE.copy()
required_fields["version"] = "-----"
with pytest.raises(ExceptionGroup):
# Multiple things to trigger a validation error:
# invalid version, missing keys, etc.
metadata.Metadata.from_raw(required_fields)
@pytest.mark.parametrize("meta_version", ["2.2", "2.3"])
def test_metadata_version_field_introduction(self, meta_version: str) -> None:
raw: RawMetadata = {
"metadata_version": meta_version,
"name": "packaging",
"version": "2023.0.0",
"dynamic": ["Obsoletes-Dist"], # Introduced in 2.2.
}
assert metadata.Metadata.from_raw(raw, validate=True) # type: ignore[truthy-bool]
@pytest.mark.parametrize("meta_version", ["1.0", "1.1", "1.2", "2.1"])
def test_metadata_version_field_introduction_mismatch(
self, meta_version: str
) -> None:
raw: RawMetadata = {
"metadata_version": meta_version,
"name": "packaging",
"version": "2023.0.0",
"dynamic": ["Obsoletes-Dist"], # Introduced in 2.2.
}
with pytest.raises(ExceptionGroup):
metadata.Metadata.from_raw(raw, validate=True)
@pytest.mark.parametrize(
"attribute",
[
"description",
"home_page",
"download_url",
"author",
"author_email",
"maintainer",
"maintainer_email",
"license",
],
)
def test_single_value_unvalidated_attribute(self, attribute: str) -> None:
value = "Not important"
meta = metadata.Metadata.from_raw({attribute: value}, validate=False) # type: ignore[misc]
assert getattr(meta, attribute) == value
@pytest.mark.parametrize(
"attribute",
[
"supported_platforms",
"platforms",
"classifiers",
"provides_dist",
"obsoletes_dist",
"requires",
"provides",
"obsoletes",
],
)
def test_multi_value_unvalidated_attribute(self, attribute: str) -> None:
values = ["Not important", "Still not important"]
meta = metadata.Metadata.from_raw({attribute: values}, validate=False) # type: ignore[misc]
assert getattr(meta, attribute) == values
@pytest.mark.parametrize("version", ["1.0", "1.1", "1.2", "2.1", "2.2", "2.3"])
def test_valid_metadata_version(self, version: str) -> None:
meta = metadata.Metadata.from_raw({"metadata_version": version}, validate=False)
assert meta.metadata_version == version
@pytest.mark.parametrize("version", ["1.3", "2.0"])
def test_invalid_metadata_version(self, version: str) -> None:
meta = metadata.Metadata.from_raw({"metadata_version": version}, validate=False)
with pytest.raises(metadata.InvalidMetadata):
meta.metadata_version # noqa: B018
def test_valid_version(self) -> None:
version_str = "1.2.3"
meta = metadata.Metadata.from_raw({"version": version_str}, validate=False)
assert meta.version == version.parse(version_str)
def test_missing_version(self) -> None:
meta = metadata.Metadata.from_raw({}, validate=False)
with pytest.raises(metadata.InvalidMetadata) as exc_info:
meta.version # noqa: B018
assert exc_info.value.field == "version"
def test_invalid_version(self) -> None:
meta = metadata.Metadata.from_raw({"version": "a.b.c"}, validate=False)
self._invalid_with_cause(meta, "version", version.InvalidVersion)
def test_valid_summary(self) -> None:
summary = "Hello"
meta = metadata.Metadata.from_raw({"summary": summary}, validate=False)
assert meta.summary == summary
def test_invalid_summary(self) -> None:
meta = metadata.Metadata.from_raw(
{"summary": "Hello\n Again"}, validate=False
)
with pytest.raises(metadata.InvalidMetadata) as exc_info:
meta.summary # noqa: B018
assert exc_info.value.field == "summary"
def test_valid_name(self) -> None:
name = "Hello_World"
meta = metadata.Metadata.from_raw({"name": name}, validate=False)
assert meta.name == name
def test_invalid_name(self) -> None:
meta = metadata.Metadata.from_raw({"name": "-not-legal"}, validate=False)
self._invalid_with_cause(meta, "name", utils.InvalidName)
@pytest.mark.parametrize(
"content_type",
[
"text/plain",
"TEXT/PLAIN",
"text/x-rst",
"text/markdown",
"text/plain; charset=UTF-8",
"text/x-rst; charset=UTF-8",
"text/markdown; charset=UTF-8; variant=GFM",
"text/markdown; charset=UTF-8; variant=CommonMark",
"text/markdown; variant=GFM",
"text/markdown; variant=CommonMark",
],
)
def test_valid_description_content_type(self, content_type: str) -> None:
meta = metadata.Metadata.from_raw(
{"description_content_type": content_type}, validate=False
)
assert meta.description_content_type == content_type
@pytest.mark.parametrize(
"content_type",
[
"application/json",
"text/plain; charset=ascii",
"text/plain; charset=utf-8",
"text/markdown; variant=gfm",
"text/markdown; variant=commonmark",
],
)
def test_invalid_description_content_type(self, content_type: str) -> None:
meta = metadata.Metadata.from_raw(
{"description_content_type": content_type}, validate=False
)
with pytest.raises(metadata.InvalidMetadata):
meta.description_content_type # noqa: B018
def test_keywords(self) -> None:
keywords = ["hello", "world"]
meta = metadata.Metadata.from_raw({"keywords": keywords}, validate=False)
assert meta.keywords == keywords
def test_valid_project_urls(self) -> None:
urls = {
"Documentation": "https://example.com/BeagleVote",
"Bug Tracker": "http://bitbucket.org/tarek/distribute/issues/",
}
meta = metadata.Metadata.from_raw({"project_urls": urls}, validate=False)
assert meta.project_urls == urls
@pytest.mark.parametrize("specifier", [">=3", ">2.6,!=3.0.*,!=3.1.*", "~=2.6"])
def test_valid_requires_python(self, specifier: str) -> None:
expected = specifiers.SpecifierSet(specifier)
meta = metadata.Metadata.from_raw(
{"requires_python": specifier}, validate=False
)
assert meta.requires_python == expected
def test_invalid_requires_python(self) -> None:
meta = metadata.Metadata.from_raw(
{"requires_python": "NotReal"}, validate=False
)
self._invalid_with_cause(
meta,
"requires_python",
specifiers.InvalidSpecifier,
field="requires-python",
)
def test_requires_external(self) -> None:
externals = [
"C",
"libpng (>=1.5)",
'make; sys_platform != "win32"',
"libjpeg (>6b)",
]
meta = metadata.Metadata.from_raw(
{"requires_external": externals}, validate=False
)
assert meta.requires_external == externals
def test_valid_provides_extra(self) -> None:
extras = ["dev", "test"]
meta = metadata.Metadata.from_raw({"provides_extra": extras}, validate=False)
assert meta.provides_extra == extras
def test_invalid_provides_extra(self) -> None:
extras = ["pdf", "-Not-Valid", "ok"]
meta = metadata.Metadata.from_raw({"provides_extra": extras}, validate=False)
self._invalid_with_cause(
meta, "provides_extra", utils.InvalidName, field="provides-extra"
)
def test_valid_requires_dist(self) -> None:
requires = [
"pkginfo",
"PasteDeploy",
"zope.interface (>3.5.0)",
"pywin32 >1.0; sys_platform == 'win32'",
]
expected_requires = list(map(requirements.Requirement, requires))
meta = metadata.Metadata.from_raw({"requires_dist": requires}, validate=False)
assert meta.requires_dist == expected_requires
def test_invalid_requires_dist(self) -> None:
requires = ["pkginfo", "-not-real", "zope.interface (>3.5.0)"]
meta = metadata.Metadata.from_raw({"requires_dist": requires}, validate=False)
self._invalid_with_cause(
meta,
"requires_dist",
requirements.InvalidRequirement,
field="requires-dist",
)
def test_valid_dynamic(self) -> None:
dynamic = ["Keywords", "Home-Page", "Author"]
meta = metadata.Metadata.from_raw({"dynamic": dynamic}, validate=False)
assert meta.dynamic == [d.lower() for d in dynamic]
def test_invalid_dynamic_value(self) -> None:
dynamic = ["Keywords", "NotReal", "Author"]
meta = metadata.Metadata.from_raw({"dynamic": dynamic}, validate=False)
with pytest.raises(metadata.InvalidMetadata):
meta.dynamic # noqa: B018
@pytest.mark.parametrize("field_name", ["name", "version", "metadata-version"])
def test_disallowed_dynamic(self, field_name: str) -> None:
meta = metadata.Metadata.from_raw({"dynamic": [field_name]}, validate=False)
message = f"{field_name!r} is not allowed"
with pytest.raises(metadata.InvalidMetadata, match=message) as execinfo:
meta.dynamic # noqa: B018
# The name of the specific offending field should be used,
# not a list with all fields:
assert "[" not in str(execinfo.value)
@pytest.mark.parametrize(
"field_name",
sorted(metadata._RAW_TO_EMAIL_MAPPING.keys() - metadata._REQUIRED_ATTRS),
)
def test_optional_defaults_to_none(self, field_name: str) -> None:
meta = metadata.Metadata.from_raw({}, validate=False)
assert getattr(meta, field_name) is None
@pytest.mark.parametrize(
("license_expression", "expected"),
[
("MIT", "MIT"),
("mit", "MIT"),
("BSD-3-Clause", "BSD-3-Clause"),
("Bsd-3-clause", "BSD-3-Clause"),
(
"MIT AND (Apache-2.0 OR BSD-2-Clause)",
"MIT AND (Apache-2.0 OR BSD-2-Clause)",
),
(
"mit and (apache-2.0 or bsd-2-clause)",
"MIT AND (Apache-2.0 OR BSD-2-Clause)",
),
(
"MIT OR GPL-2.0-or-later OR (FSFUL AND BSD-2-Clause)",
"MIT OR GPL-2.0-or-later OR (FSFUL AND BSD-2-Clause)",
),
(
"GPL-3.0-only WITH Classpath-exception-2.0 OR BSD-3-Clause",
"GPL-3.0-only WITH Classpath-exception-2.0 OR BSD-3-Clause",
),
(
"LicenseRef-Special-License OR CC0-1.0 OR Unlicense",
"LicenseRef-Special-License OR CC0-1.0 OR Unlicense",
),
("mIt", "MIT"),
(" mIt ", "MIT"),
("mit or apache-2.0", "MIT OR Apache-2.0"),
("mit and apache-2.0", "MIT AND Apache-2.0"),
(
"gpl-2.0-or-later with bison-exception-2.2",
"GPL-2.0-or-later WITH Bison-exception-2.2",
),
(
"mit or apache-2.0 and (bsd-3-clause or mpl-2.0)",
"MIT OR Apache-2.0 AND (BSD-3-Clause OR MPL-2.0)",
),
("mit and (apache-2.0+ or mpl-2.0+)", "MIT AND (Apache-2.0+ OR MPL-2.0+)"),
(
"mit and ( apache-2.0+ or mpl-2.0+ )",
"MIT AND (Apache-2.0+ OR MPL-2.0+)",
),
# Valid non-SPDX values
("LicenseRef-Public-Domain", "LicenseRef-Public-Domain"),
("licenseref-public-domain", "LicenseRef-public-domain"),
("licenseref-proprietary", "LicenseRef-proprietary"),
("LicenseRef-Proprietary", "LicenseRef-Proprietary"),
("LicenseRef-Beerware-4.2", "LicenseRef-Beerware-4.2"),
("licenseref-beerware-4.2", "LicenseRef-beerware-4.2"),
(
"(LicenseRef-Special-License OR LicenseRef-OtherLicense) OR Unlicense",
"(LicenseRef-Special-License OR LicenseRef-OtherLicense) OR Unlicense",
),
(
"(LicenseRef-Special-License OR licenseref-OtherLicense) OR unlicense",
"(LicenseRef-Special-License OR LicenseRef-OtherLicense) OR Unlicense",
),
# we don't canonicalize redundant parens, instead leaving them as-is
# in the license expression.
("(MIT)", "(MIT)"),
("((MIT))", "((MIT))"),
("(( MIT ))", "((MIT))"),
("((MIT AND (MIT)))", "((MIT AND (MIT)))"),
],
)
def test_valid_license_expression(
self, license_expression: str, expected: str
) -> None:
meta = metadata.Metadata.from_raw(
{"license_expression": license_expression}, validate=False
)
assert meta.license_expression == expected
@pytest.mark.parametrize(
"license_expression",
[
"",
"Use-it-after-midnight",
"LicenseRef-License with spaces",
"LicenseRef-License_with_underscores",
"or",
"and",
"with",
"mit or",
"mit and",
"mit with",
"or mit",
"and mit",
"with mit",
"(mit",
"mit)",
") mit",
"mit (",
"mit or or apache-2.0",
# Missing an operator before `(`.
"mit or apache-2.0 (bsd-3-clause and MPL-2.0)",
# "2-BSD-Clause is not a valid license.
"Apache-2.0 OR 2-BSD-Clause",
# Empty parenthesis.
"()",
"( ) or mit",
"mit and ( )",
"( ) or mit and ( )",
"( ) with ( ) or mit",
"mit with ( ) with ( ) or mit",
],
)
def test_invalid_license_expression(self, license_expression: str) -> None:
meta = metadata.Metadata.from_raw(
{"license_expression": license_expression}, validate=False
)
with pytest.raises(metadata.InvalidMetadata):
meta.license_expression # noqa: B018
@pytest.mark.parametrize(
"license_files",
[
[],
["licenses/LICENSE.MIT", "licenses/LICENSE.CC0"],
["LICENSE"],
],
)
def test_valid_license_files(self, license_files: list[str]) -> None:
meta = metadata.Metadata.from_raw(
{"license_files": license_files}, validate=False
)
assert meta.license_files == license_files
@pytest.mark.parametrize(
"license_files",
[
# Can't escape out of the project's directory.
["../LICENSE"],
["./../LICENSE"],
# Paths should be resolved.
["licenses/../LICENSE"],
# Absolute paths are not allowed.
["/licenses/LICENSE"],
# Paths must be valid
# (i.e. glob pattern didn't escape out of pyproject.toml.)
["licenses/*"],
# Paths must use / delimiter
["licenses\\LICENSE"],
],
)
def test_invalid_license_files(self, license_files: list[str]) -> None:
meta = metadata.Metadata.from_raw(
{"license_files": license_files}, validate=False
)
with pytest.raises(metadata.InvalidMetadata):
meta.license_files # noqa: B018
@pytest.mark.parametrize("key", ["import_namespaces", "import_names"])
def test_valid_import_names(self, key: str) -> None:
import_names = [
"packaging",
"packaging.metadata",
"_utils ; private",
"_stuff;private",
]
meta = metadata.Metadata.from_raw({key: import_names}, validate=False) # type: ignore[misc]
assert getattr(meta, key) == import_names
@pytest.mark.parametrize("key", ["import_namespaces", "import_names"])
@pytest.mark.parametrize(
"name", ["not-valid", "still.not-valid", "stuff;", "stuff; extra"]
)
def test_invalid_import_names_identifier(self, key: str, name: str) -> None:
meta = metadata.Metadata.from_raw({key: [name]}, validate=False) # type: ignore[misc]
with pytest.raises(metadata.InvalidMetadata):
getattr(meta, key)
@pytest.mark.parametrize("key", ["import_namespaces", "import_names"])
def test_invalid_import_names_keyword(self, key: str) -> None:
import_names = ["class"]
meta = metadata.Metadata.from_raw({key: import_names}, validate=False) # type: ignore[misc]
with pytest.raises(metadata.InvalidMetadata):
getattr(meta, key)
class TestMetadataWriting:
def test_write_metadata(self) -> None:
meta = metadata.Metadata.from_raw(_RAW_EXAMPLE)
written = meta.as_rfc822().as_string()
assert (
written == "metadata-version: 2.5\nname: packaging\nversion: 2023.0.0\n\n"
)
def test_write_metadata_with_description(self) -> None:
# Intentionally out of order to make sure it is written in order
meta = metadata.Metadata.from_raw(
{
"version": "1.2.3",
"name": "Hello",
"description": "Hello\n\nWorld👋",
"metadata_version": "2.3",
}
)
written = meta.as_rfc822().as_string()
assert (
written == "metadata-version: 2.3\nname: Hello\n"
"version: 1.2.3\n\nHello\n\nWorld👋"
)
written_bytes = meta.as_rfc822().as_bytes()
assert (
written_bytes
== "metadata-version: 2.3\nname: Hello\n"
"version: 1.2.3\n\nHello\n\nWorld👋".encode()
)
def test_multiline_license(self) -> None:
meta = metadata.Metadata.from_raw(
{
"version": "1.2.3",
"name": "packaging",
"license": "Hello\nWorld🐍",
"metadata_version": "2.3",
}
)
written = meta.as_rfc822().as_string()
assert (
written == "metadata-version: 2.3\nname: packaging\nversion: 1.2.3"
"\nlicense: Hello\n World🐍\n\n"
)
written_bytes = meta.as_rfc822().as_bytes()
assert (
written_bytes
== "metadata-version: 2.3\nname: packaging\nversion: 1.2.3"
"\nlicense: Hello\n World🐍\n\n".encode()
)
def test_large(self) -> None:
meta = metadata.Metadata.from_raw(
{
"author": "Example!",
"author_email": "Unknown <example@example.com>",
"classifiers": [
"Development Status :: 4 - Beta",
"Programming Language :: Python",
],
"description": "some readme 👋\n",
"description_content_type": "text/markdown",
"keywords": ["trampolim", "is", "interesting"],
"license": "some license text",
"maintainer_email": "Other Example <other@example.com>",
"metadata_version": "2.1",
"name": "full_metadata",
"project_urls": {
"homepage": "example.com",
"documentation": "readthedocs.org",
"repository": "github.com/some/repo",
"changelog": "github.com/some/repo/blob/master/CHANGELOG.rst",
},
"provides_extra": ["test"],
"requires_dist": [
"dependency1",
"dependency2>1.0.0",
"dependency3[extra]",
'dependency4; os_name != "nt"',
'dependency5[other-extra]>1.0; os_name == "nt"',
'test_dependency; extra == "test"',
'test_dependency[test_extra]; extra == "test"',
"test_dependency[test_extra2]>3.0; "
'os_name == "nt" and extra == "test"',
],
"requires_python": ">=3.8",
"summary": "A package with all the metadata :)",
"version": "3.2.1",
}
)
core_metadata = meta.as_rfc822()
assert core_metadata.items() == [
("metadata-version", "2.1"),
("name", "full_metadata"),
("version", "3.2.1"),
("summary", "A package with all the metadata :)"),
("description-content-type", "text/markdown"),
("keywords", "trampolim,is,interesting"),
("author", "Example!"),
("author-email", "Unknown <example@example.com>"),
("maintainer-email", "Other Example <other@example.com>"),
("license", "some license text"),
("classifier", "Development Status :: 4 - Beta"),
("classifier", "Programming Language :: Python"),
("requires-dist", "dependency1"),
("requires-dist", "dependency2>1.0.0"),
("requires-dist", "dependency3[extra]"),
("requires-dist", 'dependency4; os_name != "nt"'),
("requires-dist", 'dependency5[other-extra]>1.0; os_name == "nt"'),
("requires-dist", 'test_dependency; extra == "test"'),
("requires-dist", 'test_dependency[test_extra]; extra == "test"'),
(
"requires-dist",
'test_dependency[test_extra2]>3.0; os_name == "nt" and extra == "test"',
),
("requires-python", ">=3.8"),
("project-url", "homepage, example.com"),
("project-url", "documentation, readthedocs.org"),
("project-url", "repository, github.com/some/repo"),
(
"project-url",
"changelog, github.com/some/repo/blob/master/CHANGELOG.rst",
),
("provides-extra", "test"),
]
assert core_metadata.get_payload() == "some readme 👋\n"
def test_modern_license(self) -> None:
meta = metadata.Metadata.from_raw(
{
"metadata_version": "2.4",
"name": "full_metadata",
"version": "3.2.1",
"license_expression": "MIT",
"license_files": ["LICENSE.txt", "LICENSE"],
}
)
core_metadata = meta.as_rfc822()
assert core_metadata.items() == [
("metadata-version", "2.4"),
("name", "full_metadata"),
("version", "3.2.1"),
("license-expression", "MIT"),
("license-file", "LICENSE.txt"),
("license-file", "LICENSE"),
]
assert core_metadata.get_payload() is None
def test__import_names(self) -> None:
meta = metadata.Metadata.from_raw(
{
"metadata_version": "2.5",
"name": "full_metadata",
"version": "3.2.1",
"import_names": ["one", "two"],
"import_namespaces": ["three"],
}
)
core_metadata = meta.as_rfc822()
assert core_metadata.items() == [
("metadata-version", "2.5"),
("name", "full_metadata"),
("version", "3.2.1"),
("import-name", "one"),
("import-name", "two"),
("import-namespace", "three"),
]
assert core_metadata.get_payload() is None
def test_empty_import_names(self) -> None:
meta = metadata.Metadata.from_raw(
{
"metadata_version": "2.5",
"name": "full_metadata",
"version": "3.2.1",
"import_names": [],
}
)
core_metadata = meta.as_rfc822()
assert core_metadata.items() == [
("metadata-version", "2.5"),
("name", "full_metadata"),
("version", "3.2.1"),
("import-name", ""),
]
assert core_metadata.get_payload() is None
@pytest.mark.parametrize(
("items", "data"),
[
pytest.param(
[],
"",
id="empty",
),
pytest.param(
[
("Foo", "Bar"),
],
"Foo: Bar\n",
id="simple",
),
pytest.param(
[
("Foo", "Bar"),
("Foo2", "Bar2"),
],
"""\
Foo: Bar
Foo2: Bar2
""",
id="multiple",
),
pytest.param(
[
("Foo", "Unicøde"),
],
"Foo: Unicøde\n",
id="unicode",
),
pytest.param(
[
("Foo", "🕵️"),
],
"Foo: 🕵️\n",
id="emoji",
),
pytest.param(
[
("Item", None),
],
"",
id="none",
),
pytest.param(
[
("ItemA", "ValueA"),
("ItemB", "ValueB"),
("ItemC", "ValueC"),
],
"""\
ItemA: ValueA
ItemB: ValueB
ItemC: ValueC
""",
id="order 1",
),
pytest.param(
[
("ItemB", "ValueB"),
("ItemC", "ValueC"),
("ItemA", "ValueA"),
],
"""\
ItemB: ValueB
ItemC: ValueC
ItemA: ValueA
""",
id="order 2",
),
pytest.param(
[
("ItemA", "ValueA1"),
("ItemB", "ValueB"),
("ItemC", "ValueC"),
("ItemA", "ValueA2"),
],
"""\
ItemA: ValueA1
ItemB: ValueB
ItemC: ValueC
ItemA: ValueA2
""",
id="multiple keys",
),
pytest.param(
[
("ItemA", "ValueA"),
("ItemB", "ValueB1\nValueB2\nValueB3"),
("ItemC", "ValueC"),
],
"""\
ItemA: ValueA
ItemB: ValueB1
ValueB2
ValueB3
ItemC: ValueC
""",
id="multiline",
),
],
)
def test_headers(self, items: list[tuple[str, None | str]], data: str) -> None:
message = metadata.RFC822Message()
for name, value in items:
if value:
message[name] = value
data = textwrap.dedent(data) + "\n"
assert str(message) == data
assert bytes(message) == data.encode()
assert email.message_from_string(str(message)).items() == [
(a, "\n ".join(b.splitlines())) for a, b in items if b is not None
]
def test_body(self) -> None:
message = metadata.RFC822Message()
message["ItemA"] = "ValueA"
message["ItemB"] = "ValueB"
message["ItemC"] = "ValueC"
body = inspect.cleandoc(
"""
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Mauris
congue semper fermentum. Nunc vitae tempor ante. Aenean aliquet
posuere lacus non faucibus. In porttitor congue luctus. Vivamus eu
dignissim orci. Donec egestas mi ac ipsum volutpat, vel elementum
sapien consectetur. Praesent dictum finibus fringilla. Sed vel
feugiat leo. Nulla a pharetra augue, at tristique metus.
Aliquam fermentum elit at risus sagittis, vel pretium augue congue.
Donec leo risus, faucibus vel posuere efficitur, feugiat ut leo.
Aliquam vestibulum vel dolor id elementum. Ut bibendum nunc interdum
neque interdum, vel tincidunt lacus blandit. Ut volutpat
sollicitudin dapibus. Integer vitae lacinia ex, eget finibus nulla.
Donec sit amet ante in neque pulvinar faucibus sed nec justo. Fusce
hendrerit massa libero, sit amet pulvinar magna tempor quis. ø
"""
)
headers = inspect.cleandoc(
"""
ItemA: ValueA
ItemB: ValueB
ItemC: ValueC
"""
)
full = f"{headers}\n\n{body}"
message.set_payload(textwrap.dedent(body))
assert str(message) == full
new_message = email.message_from_string(str(message))
assert new_message.items() == message.items()
assert new_message.get_payload() == message.get_payload()
assert bytes(message) == full.encode("utf-8")
|
