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# Copyright 2024 The Bazel Authors. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Create a repository for a locally installed Python runtime."""
load("//python/private:enum.bzl", "enum")
load(":repo_utils.bzl", "REPO_DEBUG_ENV_VAR", "repo_utils")
# buildifier: disable=name-conventions
_OnFailure = enum(
SKIP = "skip",
WARN = "warn",
FAIL = "fail",
)
_TOOLCHAIN_IMPL_TEMPLATE = """\
# Generated by python/private/local_runtime_repo.bzl
load("@rules_python//python/private:local_runtime_repo_setup.bzl", "define_local_runtime_toolchain_impl")
define_local_runtime_toolchain_impl(
name = "local_runtime",
lib_ext = "{lib_ext}",
major = "{major}",
minor = "{minor}",
micro = "{micro}",
interpreter_path = "{interpreter_path}",
implementation_name = "{implementation_name}",
os = "{os}",
)
"""
def _local_runtime_repo_impl(rctx):
logger = repo_utils.logger(rctx)
on_failure = rctx.attr.on_failure
result = _resolve_interpreter_path(rctx)
if not result.resolved_path:
if on_failure == "fail":
fail("interpreter not found: {}".format(result.describe_failure()))
if on_failure == "warn":
logger.warn(lambda: "interpreter not found: {}".format(result.describe_failure()))
# else, on_failure must be skip
rctx.file("BUILD.bazel", _expand_incompatible_template())
return
else:
interpreter_path = result.resolved_path
logger.info(lambda: "resolved interpreter {} to {}".format(rctx.attr.interpreter_path, interpreter_path))
exec_result = repo_utils.execute_unchecked(
rctx,
op = "local_runtime_repo.GetPythonInfo({})".format(rctx.name),
arguments = [
interpreter_path,
rctx.path(rctx.attr._get_local_runtime_info),
],
quiet = True,
logger = logger,
)
if exec_result.return_code != 0:
if on_failure == "fail":
fail("GetPythonInfo failed: {}".format(exec_result.describe_failure()))
if on_failure == "warn":
logger.warn(lambda: "GetPythonInfo failed: {}".format(exec_result.describe_failure()))
# else, on_failure must be skip
rctx.file("BUILD.bazel", _expand_incompatible_template())
return
info = json.decode(exec_result.stdout)
logger.info(lambda: _format_get_info_result(info))
# NOTE: Keep in sync with recursive glob in define_local_runtime_toolchain_impl
repo_utils.watch_tree(rctx, rctx.path(info["include"]))
# The cc_library.includes values have to be non-absolute paths, otherwise
# the toolchain will give an error. Work around this error by making them
# appear as part of this repo.
rctx.symlink(info["include"], "include")
shared_lib_names = [
info["PY3LIBRARY"],
info["LDLIBRARY"],
info["INSTSONAME"],
]
# In some cases, the value may be empty. Not clear why.
shared_lib_names = [v for v in shared_lib_names if v]
# In some cases, the same value is returned for multiple keys. Not clear why.
shared_lib_names = {v: None for v in shared_lib_names}.keys()
shared_lib_dir = info["LIBDIR"]
# The specific files are symlinked instead of the whole directory
# because it can point to a directory that has more than just
# the Python runtime shared libraries, e.g. /usr/lib, or a Python
# specific directory with pip-installed shared libraries.
rctx.report_progress("Symlinking external Python shared libraries")
for name in shared_lib_names:
origin = rctx.path("{}/{}".format(shared_lib_dir, name))
# The reported names don't always exist; it depends on the particulars
# of the runtime installation.
if origin.exists:
repo_utils.watch(rctx, origin)
rctx.symlink(origin, "lib/" + name)
rctx.file("WORKSPACE", "")
rctx.file("MODULE.bazel", "")
rctx.file("REPO.bazel", "")
rctx.file("BUILD.bazel", _TOOLCHAIN_IMPL_TEMPLATE.format(
major = info["major"],
minor = info["minor"],
micro = info["micro"],
interpreter_path = interpreter_path,
lib_ext = info["SHLIB_SUFFIX"],
implementation_name = info["implementation_name"],
os = "@platforms//os:{}".format(repo_utils.get_platforms_os_name(rctx)),
))
local_runtime_repo = repository_rule(
implementation = _local_runtime_repo_impl,
doc = """
Use a locally installed Python runtime as a toolchain implementation.
Note this uses the runtime as a *platform runtime*. A platform runtime means
means targets don't include the runtime itself as part of their runfiles or
inputs. Instead, users must assure that where the targets run have the runtime
pre-installed or otherwise available.
This results in lighter weight binaries (in particular, Bazel doesn't have to
create thousands of files for every `py_test`), at the risk of having to rely on
a system having the necessary Python installed.
""",
attrs = {
"interpreter_path": attr.string(
doc = """
An absolute path or program name on the `PATH` env var.
Values with slashes are assumed to be the path to a program. Otherwise, it is
treated as something to search for on `PATH`
Note that, when a plain program name is used, the path to the interpreter is
resolved at repository evalution time, not runtime of any resulting binaries.
""",
default = "python3",
),
"on_failure": attr.string(
default = _OnFailure.SKIP,
values = sorted(_OnFailure.__members__.values()),
doc = """
How to handle errors when trying to automatically determine settings.
* `skip` will silently skip creating a runtime. Instead, a non-functional
runtime will be generated and marked as incompatible so it cannot be used.
This is best if a local runtime is known not to work or be available
in certain cases and that's OK. e.g., one use windows paths when there
are people running on linux.
* `warn` will print a warning message. This is useful when you expect
a runtime to be available, but are OK with it missing and falling back
to some other runtime.
* `fail` will result in a failure. This is only recommended if you must
ensure the runtime is available.
""",
),
"_get_local_runtime_info": attr.label(
allow_single_file = True,
default = "//python/private:get_local_runtime_info.py",
),
"_rule_name": attr.string(default = "local_runtime_repo"),
},
environ = ["PATH", REPO_DEBUG_ENV_VAR],
)
def _expand_incompatible_template():
return _TOOLCHAIN_IMPL_TEMPLATE.format(
interpreter_path = "/incompatible",
implementation_name = "incompatible",
lib_ext = "incompatible",
major = "0",
minor = "0",
micro = "0",
os = "@platforms//:incompatible",
)
def _resolve_interpreter_path(rctx):
"""Find the absolute path for an interpreter.
Args:
rctx: A repository_ctx object
Returns:
`struct` with the following fields:
* `resolved_path`: `path` object of a path that exists
* `describe_failure`: `Callable | None`. If a path that doesn't exist,
returns a description of why it couldn't be resolved
A path object or None. The path may not exist.
"""
if "/" not in rctx.attr.interpreter_path and "\\" not in rctx.attr.interpreter_path:
# Provide a bit nicer integration with pyenv: recalculate the runtime if the
# user changes the python version using e.g. `pyenv shell`
repo_utils.getenv(rctx, "PYENV_VERSION")
result = repo_utils.which_unchecked(rctx, rctx.attr.interpreter_path)
resolved_path = result.binary
describe_failure = result.describe_failure
else:
repo_utils.watch(rctx, rctx.attr.interpreter_path)
resolved_path = rctx.path(rctx.attr.interpreter_path)
if not resolved_path.exists:
describe_failure = lambda: "Path not found: {}".format(repr(rctx.attr.interpreter_path))
else:
describe_failure = None
return struct(
resolved_path = resolved_path,
describe_failure = describe_failure,
)
def _format_get_info_result(info):
lines = ["GetPythonInfo result:"]
for key, value in sorted(info.items()):
lines.append(" {}: {}".format(key, value if value != "" else "<empty string>"))
return "\n".join(lines)