# Copyright 2022 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. """Implementation of py_runtime rule.""" load("@bazel_skylib//lib:dicts.bzl", "dicts") load("@bazel_skylib//lib:paths.bzl", "paths") load("@bazel_skylib//rules:common_settings.bzl", "BuildSettingInfo") load("//python/private:reexports.bzl", "BuiltinPyRuntimeInfo") load("//python/private:util.bzl", "IS_BAZEL_7_OR_HIGHER") load(":attributes.bzl", "NATIVE_RULES_ALLOWLIST_ATTRS") load(":providers.bzl", "DEFAULT_BOOTSTRAP_TEMPLATE", "DEFAULT_STUB_SHEBANG", "PyRuntimeInfo") load(":py_internal.bzl", "py_internal") _py_builtins = py_internal def _py_runtime_impl(ctx): interpreter_path = ctx.attr.interpreter_path or None # Convert empty string to None interpreter = ctx.attr.interpreter if (interpreter_path and interpreter) or (not interpreter_path and not interpreter): fail("exactly one of the 'interpreter' or 'interpreter_path' attributes must be specified") runtime_files = depset(transitive = [ t[DefaultInfo].files for t in ctx.attr.files ]) runfiles = ctx.runfiles() hermetic = bool(interpreter) if not hermetic: if runtime_files: fail("if 'interpreter_path' is given then 'files' must be empty") if not paths.is_absolute(interpreter_path): fail("interpreter_path must be an absolute path") else: interpreter_di = interpreter[DefaultInfo] if interpreter_di.files_to_run and interpreter_di.files_to_run.executable: interpreter = interpreter_di.files_to_run.executable runfiles = runfiles.merge(interpreter_di.default_runfiles) runtime_files = depset(transitive = [ interpreter_di.files, interpreter_di.default_runfiles.files, runtime_files, ]) elif _is_singleton_depset(interpreter_di.files): interpreter = interpreter_di.files.to_list()[0] else: fail("interpreter must be an executable target or must produce exactly one file.") if ctx.attr.coverage_tool: coverage_di = ctx.attr.coverage_tool[DefaultInfo] if _is_singleton_depset(coverage_di.files): coverage_tool = coverage_di.files.to_list()[0] elif coverage_di.files_to_run and coverage_di.files_to_run.executable: coverage_tool = coverage_di.files_to_run.executable else: fail("coverage_tool must be an executable target or must produce exactly one file.") coverage_files = depset(transitive = [ coverage_di.files, coverage_di.default_runfiles.files, ]) else: coverage_tool = None coverage_files = None python_version = ctx.attr.python_version interpreter_version_info = ctx.attr.interpreter_version_info if not interpreter_version_info: python_version_flag = ctx.attr._python_version_flag[BuildSettingInfo].value if python_version_flag: interpreter_version_info = _interpreter_version_info_from_version_str(python_version_flag) # TODO: Uncomment this after --incompatible_python_disable_py2 defaults to true # if ctx.fragments.py.disable_py2 and python_version == "PY2": # fail("Using Python 2 is not supported and disabled; see " + # "https://github.com/bazelbuild/bazel/issues/15684") pyc_tag = ctx.attr.pyc_tag if not pyc_tag and (ctx.attr.implementation_name and interpreter_version_info.get("major") and interpreter_version_info.get("minor")): pyc_tag = "{}-{}{}".format( ctx.attr.implementation_name, interpreter_version_info["major"], interpreter_version_info["minor"], ) py_runtime_info_kwargs = dict( interpreter_path = interpreter_path or None, interpreter = interpreter, files = runtime_files if hermetic else None, coverage_tool = coverage_tool, coverage_files = coverage_files, python_version = python_version, stub_shebang = ctx.attr.stub_shebang, bootstrap_template = ctx.file.bootstrap_template, ) builtin_py_runtime_info_kwargs = dict(py_runtime_info_kwargs) # There are all args that BuiltinPyRuntimeInfo doesn't support py_runtime_info_kwargs.update(dict( implementation_name = ctx.attr.implementation_name, interpreter_version_info = interpreter_version_info, pyc_tag = pyc_tag, stage2_bootstrap_template = ctx.file.stage2_bootstrap_template, zip_main_template = ctx.file.zip_main_template, )) if not IS_BAZEL_7_OR_HIGHER: builtin_py_runtime_info_kwargs.pop("bootstrap_template") return [ PyRuntimeInfo(**py_runtime_info_kwargs), # Return the builtin provider for better compatibility. # 1. There is a legacy code path in py_binary that # checks for the provider when toolchains aren't used # 2. It makes it easier to transition from builtins to rules_python BuiltinPyRuntimeInfo(**builtin_py_runtime_info_kwargs), DefaultInfo( files = runtime_files, runfiles = runfiles, ), ] # Bind to the name "py_runtime" to preserve the kind/rule_class it shows up # as elsewhere. py_runtime = rule( implementation = _py_runtime_impl, doc = """ Represents a Python runtime used to execute Python code. A `py_runtime` target can represent either a *platform runtime* or an *in-build runtime*. A platform runtime accesses a system-installed interpreter at a known path, whereas an in-build runtime points to an executable target that acts as the interpreter. In both cases, an "interpreter" means any executable binary or wrapper script that is capable of running a Python script passed on the command line, following the same conventions as the standard CPython interpreter. A platform runtime is by its nature non-hermetic. It imposes a requirement on the target platform to have an interpreter located at a specific path. An in-build runtime may or may not be hermetic, depending on whether it points to a checked-in interpreter or a wrapper script that accesses the system interpreter. Example ``` load("@rules_python//python:py_runtime.bzl", "py_runtime") py_runtime( name = "python-2.7.12", files = glob(["python-2.7.12/**"]), interpreter = "python-2.7.12/bin/python", ) py_runtime( name = "python-3.6.0", interpreter_path = "/opt/pyenv/versions/3.6.0/bin/python", ) ``` """, fragments = ["py"], attrs = dicts.add(NATIVE_RULES_ALLOWLIST_ATTRS, { "bootstrap_template": attr.label( allow_single_file = True, default = DEFAULT_BOOTSTRAP_TEMPLATE, doc = """ The bootstrap script template file to use. Should have %python_binary%, %workspace_name%, %main%, and %imports%. This template, after expansion, becomes the executable file used to start the process, so it is responsible for initial bootstrapping actions such as finding the Python interpreter, runfiles, and constructing an environment to run the intended Python application. While this attribute is currently optional, it will become required when the Python rules are moved out of Bazel itself. The exact variable names expanded is an unstable API and is subject to change. The API will become more stable when the Python rules are moved out of Bazel itself. See @bazel_tools//tools/python:python_bootstrap_template.txt for more variables. """, ), "coverage_tool": attr.label( allow_files = False, doc = """ This is a target to use for collecting code coverage information from {rule}`py_binary` and {rule}`py_test` targets. If set, the target must either produce a single file or be an executable target. The path to the single file, or the executable if the target is executable, determines the entry point for the python coverage tool. The target and its runfiles will be added to the runfiles when coverage is enabled. The entry point for the tool must be loadable by a Python interpreter (e.g. a `.py` or `.pyc` file). It must accept the command line arguments of [`coverage.py`](https://coverage.readthedocs.io), at least including the `run` and `lcov` subcommands. """, ), "files": attr.label_list( allow_files = True, doc = """ For an in-build runtime, this is the set of files comprising this runtime. These files will be added to the runfiles of Python binaries that use this runtime. For a platform runtime this attribute must not be set. """, ), "implementation_name": attr.string( doc = "The Python implementation name (`sys.implementation.name`)", ), "interpreter": attr.label( # We set `allow_files = True` to allow specifying executable # targets from rules that have more than one default output, # e.g. sh_binary. allow_files = True, doc = """ For an in-build runtime, this is the target to invoke as the interpreter. It can be either of: * A single file, which will be the interpreter binary. It's assumed such interpreters are either self-contained single-file executables or any supporting files are specified in `files`. * An executable target. The target's executable will be the interpreter binary. Any other default outputs (`target.files`) and plain files runfiles (`runfiles.files`) will be automatically included as if specified in the `files` attribute. NOTE: the runfiles of the target may not yet be properly respected/propagated to consumers of the toolchain/interpreter, see bazelbuild/rules_python/issues/1612 For a platform runtime (i.e. `interpreter_path` being set) this attribute must not be set. """, ), "interpreter_path": attr.string(doc = """ For a platform runtime, this is the absolute path of a Python interpreter on the target platform. For an in-build runtime this attribute must not be set. """), "interpreter_version_info": attr.string_dict( doc = """ Version information about the interpreter this runtime provides. If not specified, uses {obj}`--python_version` The supported keys match the names for `sys.version_info`. While the input values are strings, most are converted to ints. The supported keys are: * major: int, the major version number * minor: int, the minor version number * micro: optional int, the micro version number * releaselevel: optional str, the release level * serial: optional int, the serial number of the release :::{versionchanged} 0.36.0 {obj}`--python_version` determines the default value. ::: """, mandatory = False, ), "pyc_tag": attr.string( doc = """ Optional string; the tag portion of a pyc filename, e.g. the `cpython-39` infix of `foo.cpython-39.pyc`. See PEP 3147. If not specified, it will be computed from `implementation_name` and `interpreter_version_info`. If no pyc_tag is available, then only source-less pyc generation will function correctly. """, ), "python_version": attr.string( default = "PY3", values = ["PY2", "PY3"], doc = """ Whether this runtime is for Python major version 2 or 3. Valid values are `"PY2"` and `"PY3"`. The default value is controlled by the `--incompatible_py3_is_default` flag. However, in the future this attribute will be mandatory and have no default value. """, ), "stage2_bootstrap_template": attr.label( default = "//python/private:stage2_bootstrap_template", allow_single_file = True, doc = """ The template to use when two stage bootstrapping is enabled :::{seealso} {obj}`PyRuntimeInfo.stage2_bootstrap_template` and {obj}`--bootstrap_impl` ::: """, ), "stub_shebang": attr.string( default = DEFAULT_STUB_SHEBANG, doc = """ "Shebang" expression prepended to the bootstrapping Python stub script used when executing {rule}`py_binary` targets. See https://github.com/bazelbuild/bazel/issues/8685 for motivation. Does not apply to Windows. """, ), "zip_main_template": attr.label( default = "//python/private:zip_main_template", allow_single_file = True, doc = """ The template to use for a zip's top-level `__main__.py` file. This becomes the entry point executed when `python foo.zip` is run. :::{seealso} The {obj}`PyRuntimeInfo.zip_main_template` field. ::: """, ), "_python_version_flag": attr.label( default = "//python/config_settings:python_version", ), }), ) def _is_singleton_depset(files): # Bazel 6 doesn't have this helper to optimize detecting singleton depsets. if _py_builtins: return _py_builtins.is_singleton_depset(files) else: return len(files.to_list()) == 1 def _interpreter_version_info_from_version_str(version_str): parts = version_str.split(".") version_info = {} for key in ("major", "minor", "micro"): if not parts: break version_info[key] = parts.pop(0) return version_info