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chore: import upstream snapshot with attribution
2026-07-13 12:32:31 +08:00

471 lines
15 KiB
Python

# Copyright (c) 2026 LightSeek Foundation
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
from __future__ import annotations
import io
from contextlib import redirect_stderr, redirect_stdout
from typing import Callable
import pytest
import torch
from tokenspeed_kernel import plugins as plugins_mod
from tokenspeed_kernel.platform import CapabilityRequirement
from tokenspeed_kernel.plugins import (
DISABLE_ENV_VAR,
PluginInfo,
disable_plugin,
discover_plugins,
list_plugins,
reset_plugins,
)
from tokenspeed_kernel.plugins.cli import main as cli_main
from tokenspeed_kernel.registry import KernelRegistry, register_kernel
from tokenspeed_kernel.signature import format_signatures
# ---------------------------------------------------------------------------
# Fixtures and helpers
# ---------------------------------------------------------------------------
@pytest.fixture
def fresh_plugins():
"""Reset registry and plugin state before/after each test."""
KernelRegistry.reset()
reset_plugins()
yield
KernelRegistry.reset()
reset_plugins()
class _FakeMetadata(dict):
def get(self, key, default=None):
return super().get(key, default)
class _FakeDist:
def __init__(self, name: str, version: str) -> None:
self.name = name
self.version = version
self.metadata = _FakeMetadata({"Name": name})
class _FakeEntryPoint:
"""Minimal stand-in for importlib.metadata.EntryPoint."""
def __init__(
self,
name: str,
register_fn: Callable[[], None],
*,
package: str = "fake-plugin",
version: str = "0.0.1",
) -> None:
self.name = name
self.group = plugins_mod.ENTRY_POINT_GROUP
self.value = f"{package}:register"
self._fn = register_fn
self.dist = _FakeDist(package, version)
def load(self) -> Callable[[], None]:
return self._fn
@pytest.fixture
def patch_entry_points(monkeypatch):
"""Helper to replace the entry-point lookup with a fixed list."""
def _apply(eps: list[_FakeEntryPoint]) -> None:
monkeypatch.setattr(plugins_mod, "_entry_points", lambda group: list(eps))
return _apply
def _make_register(
name: str,
*,
family: str = "gemm",
mode: str = "mm",
solution: str | None = None,
priority: int = 12,
storage_dtypes=None,
capability: CapabilityRequirement | None = None,
) -> Callable[[], None]:
sol = solution or name
def register():
@register_kernel(
family,
mode,
name=name,
solution=sol,
signatures=format_signatures(
("a", "b"), "dense", storage_dtypes or {torch.bfloat16}
),
priority=priority,
capability=capability,
)
def impl(*args, **kwargs):
return name
return impl
return register
# ---------------------------------------------------------------------------
# Public API surface
# ---------------------------------------------------------------------------
class TestPluginInfo:
def test_frozen(self):
info = PluginInfo(name="x", package="pkg", version="1.0", num_kernels=0)
with pytest.raises(Exception):
info.name = "y"
def test_default_kernel_names(self):
info = PluginInfo(name="x", package="pkg", version="1.0", num_kernels=0)
assert info.kernel_names == ()
class TestExplicitRegistration:
"""The decorator path is what plugins use; test it works standalone."""
def test_register_kernel_decorator(self, fresh_plugins):
@register_kernel(
"gemm",
"mm",
solution="manual",
signatures=format_signatures(("a", "b"), "dense", {torch.bfloat16}),
)
def impl(a, b):
return a @ b
spec = KernelRegistry.get().get_by_name("manual_gemm_mm")
assert spec is not None
assert spec.priority == 10 # default
assert KernelRegistry.get().get_impl("manual_gemm_mm") is impl
# ---------------------------------------------------------------------------
# Discovery
# ---------------------------------------------------------------------------
class TestDiscovery:
def test_discover_no_plugins(self, fresh_plugins, patch_entry_points):
patch_entry_points([])
loaded = discover_plugins()
assert loaded == []
assert list_plugins() == []
def test_discover_loads_kernels(self, fresh_plugins, patch_entry_points):
patch_entry_points(
[
_FakeEntryPoint(
"alpha",
_make_register("alpha_kernel"),
package="alpha-plugin",
version="1.2.3",
),
]
)
loaded = discover_plugins()
assert len(loaded) == 1
info = loaded[0]
assert info.name == "alpha"
assert info.package == "alpha-plugin"
assert info.version == "1.2.3"
assert info.num_kernels == 1
assert info.kernel_names == ("alpha_kernel",)
assert KernelRegistry.get().get_by_name("alpha_kernel") is not None
def test_discover_alphabetical_order(self, fresh_plugins, patch_entry_points):
order: list[str] = []
def make(name):
def register():
order.append(name)
@register_kernel(
"gemm",
"mm",
name=f"k_{name}",
solution=name,
signatures=format_signatures(("a", "b"), "dense", {torch.bfloat16}),
)
def impl():
return name
return register
# Provide entry points in non-alphabetical order; discovery should
# sort them so loading is deterministic.
patch_entry_points(
[
_FakeEntryPoint("zeta", make("zeta")),
_FakeEntryPoint("alpha", make("alpha")),
_FakeEntryPoint("mu", make("mu")),
]
)
discover_plugins()
assert order == ["alpha", "mu", "zeta"]
def test_discover_skips_already_loaded(self, fresh_plugins, patch_entry_points):
calls = {"n": 0}
def register():
calls["n"] += 1
@register_kernel(
"gemm",
"mm",
name="once_kernel",
solution="once",
signatures=format_signatures(("a", "b"), "dense", {torch.bfloat16}),
)
def impl():
return None
patch_entry_points([_FakeEntryPoint("once", register)])
discover_plugins()
discover_plugins()
assert calls["n"] == 1
def test_discover_force_reloads(self, fresh_plugins, patch_entry_points):
calls = {"n": 0}
def register():
calls["n"] += 1
@register_kernel(
"gemm",
"mm",
name="force_kernel",
solution="force",
signatures=format_signatures(("a", "b"), "dense", {torch.bfloat16}),
)
def impl():
return None
patch_entry_points([_FakeEntryPoint("force", register)])
discover_plugins()
KernelRegistry.reset() # simulate registry reset
discover_plugins(force=True)
assert calls["n"] == 2
assert KernelRegistry.get().get_by_name("force_kernel") is not None
class TestOverride:
def test_higher_priority_plugin_wins(self, fresh_plugins, patch_entry_points):
# Built-in style kernel registered before plugin discovery.
@register_kernel(
"gemm",
"mm",
name="builtin_gemm",
solution="builtin",
signatures=format_signatures(("a", "b"), "dense", {torch.bfloat16}),
priority=10,
)
def builtin(a, b):
return "builtin"
patch_entry_points(
[
_FakeEntryPoint(
"vendor",
_make_register("vendor_gemm", priority=19),
),
]
)
discover_plugins()
specs = KernelRegistry.get().get_for_operator("gemm", "mm")
# Priority-sorted descending: vendor first.
assert specs[0].name == "vendor_gemm"
assert specs[0].priority == 19
# ---------------------------------------------------------------------------
# Isolation, disabling
# ---------------------------------------------------------------------------
class TestIsolation:
def test_failing_plugin_does_not_break_others(
self, fresh_plugins, patch_entry_points
):
def boom():
raise RuntimeError("import failed")
patch_entry_points(
[
_FakeEntryPoint("broken", boom),
_FakeEntryPoint("good", _make_register("good_kernel")),
]
)
with pytest.warns(UserWarning, match="Failed to load kernel plugin 'broken'"):
loaded = discover_plugins()
assert {info.name for info in loaded} == {"good"}
assert KernelRegistry.get().get_by_name("good_kernel") is not None
assert KernelRegistry.get().get_by_name("broken") is None
class TestDisable:
def test_disable_via_api(self, fresh_plugins, patch_entry_points):
patch_entry_points(
[
_FakeEntryPoint("a", _make_register("a_kernel")),
_FakeEntryPoint("b", _make_register("b_kernel")),
]
)
disable_plugin("a")
loaded = discover_plugins()
assert {info.name for info in loaded} == {"b"}
assert KernelRegistry.get().get_by_name("a_kernel") is None
assert KernelRegistry.get().get_by_name("b_kernel") is not None
def test_disable_via_env(self, fresh_plugins, patch_entry_points, monkeypatch):
monkeypatch.setenv(DISABLE_ENV_VAR, "a, c") # whitespace, multi
patch_entry_points(
[
_FakeEntryPoint("a", _make_register("a_kernel")),
_FakeEntryPoint("b", _make_register("b_kernel")),
_FakeEntryPoint("c", _make_register("c_kernel")),
]
)
loaded = discover_plugins()
assert {info.name for info in loaded} == {"b"}
# ---------------------------------------------------------------------------
# Priority collision warning
# ---------------------------------------------------------------------------
class TestCollision:
def test_equal_priority_emits_warning(self, fresh_plugins, patch_entry_points):
# Pre-existing kernel (built-in style) at priority 14.
@register_kernel(
"gemm",
"mm",
name="builtin_eq",
solution="builtin",
signatures=format_signatures(("a", "b"), "dense", {torch.bfloat16}),
priority=14,
)
def b(a, x):
return "b"
patch_entry_points(
[
_FakeEntryPoint(
"tied",
_make_register("tied_kernel", priority=14),
),
]
)
with pytest.warns(UserWarning, match="equal priority"):
discover_plugins()
# ---------------------------------------------------------------------------
# CLI
# ---------------------------------------------------------------------------
class TestCli:
def test_list_empty(self, fresh_plugins, patch_entry_points):
# Patch with [] so the CLI's discover call ignores any real plugins
# that happen to be installed in the test environment.
patch_entry_points([])
buf = io.StringIO()
with redirect_stdout(buf):
rc = cli_main(["list"])
assert rc == 0
assert "No kernel plugins" in buf.getvalue()
def test_list_with_plugins(self, fresh_plugins, patch_entry_points):
patch_entry_points(
[
_FakeEntryPoint(
"alpha",
_make_register("alpha_kernel"),
version="1.2.3",
),
]
)
discover_plugins()
buf = io.StringIO()
with redirect_stdout(buf):
rc = cli_main(["list"])
out = buf.getvalue()
assert rc == 0
assert "alpha" in out
assert "1.2.3" in out
assert "alpha_kernel" in out
def test_info_unknown(self, fresh_plugins, patch_entry_points):
patch_entry_points([])
err = io.StringIO()
with redirect_stderr(err):
rc = cli_main(["info", "nope"])
assert rc == 1
assert "not loaded" in err.getvalue()
def test_info_known(self, fresh_plugins, patch_entry_points):
patch_entry_points(
[
_FakeEntryPoint(
"alpha",
_make_register("alpha_kernel", priority=15),
version="2.0",
),
]
)
discover_plugins()
buf = io.StringIO()
with redirect_stdout(buf):
rc = cli_main(["info", "alpha"])
out = buf.getvalue()
assert rc == 0
assert "alpha_kernel" in out
assert "gemm.mm" in out
assert "priority=15" in out
def test_cli_discovers_plugins(self, fresh_plugins, patch_entry_points):
# Loading is explicit, but `python -m tokenspeed_kernel.plugins`
# should still see installed plugins without the caller invoking
# discover_plugins() first.
patch_entry_points([_FakeEntryPoint("auto", _make_register("auto_kernel"))])
# No discover_plugins() here — the CLI itself must drive discovery.
buf = io.StringIO()
with redirect_stdout(buf):
rc = cli_main(["list"])
out = buf.getvalue()
assert rc == 0
assert "auto" in out
assert "auto_kernel" in out