proto/protobuf/proto.bzl - third_party/github/bazelbuild/rules_rust - Git at Google

 # Copyright 2018 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.

 """Rust Protobuf Rules"""

 load("@rules_proto//proto:defs.bzl", "ProtoInfo")
 load(
     "//proto/protobuf:toolchain.bzl",
     _generate_proto = "rust_generate_proto",
     _generated_file_stem = "generated_file_stem",
 )

 # buildifier: disable=bzl-visibility
 load("//rust/private:rustc.bzl", "rustc_compile_action")

 # buildifier: disable=bzl-visibility
 load("//rust/private:utils.bzl", "can_build_metadata", "compute_crate_name", "determine_output_hash", "find_toolchain", "transform_deps")

 RustProtoInfo = provider(
     doc = "Rust protobuf provider info",
     fields = {
         "proto_sources": "List[string]: list of source paths of protos",
         "transitive_proto_sources": "depset[string]",
     },
 )

 def _compute_proto_source_path(file, source_root_attr):
     """Take the short path of file and make it suitable for protoc.

     Args:
         file (File): The target source file.
         source_root_attr (str): The directory relative to which the `.proto` \
             files defined in the proto_library are defined.

     Returns:
         str: The protoc suitible path of `file`
     """

     # Bazel creates symlinks to the .proto files under a directory called
     # "_virtual_imports/<rule name>" if we do any sort of munging of import
     # paths (e.g. using strip_import_prefix / import_prefix attributes)
     virtual_imports = "/_virtual_imports/"
     if virtual_imports in file.path:
         return file.path.split(virtual_imports)[1].split("/", 1)[1]

     # For proto, they need to be requested with their absolute name to be
     # compatible with the descriptor_set passed by proto_library.
     # I.e. if you compile a protobuf at @repo1//package:file.proto, the proto
     # compiler would generate a file descriptor with the path
     # `package/file.proto`. Since we compile from the proto descriptor, we need
     # to pass the list of descriptors and the list of path to compile.
     # For the precedent example, the file (noted `f`) would have
     # `f.short_path` returns `external/repo1/package/file.proto`.
     # In addition, proto_library can provide a proto_source_path to change the base
     # path, which should a be a prefix.
     path = file.short_path

     # Strip external prefix.
     path = path.split("/", 2)[2] if path.startswith("../") else path

     # Strip source_root.
     if path.startswith(source_root_attr):
         return path[len(source_root_attr):]
     else:
         return path

 def _rust_proto_aspect_impl(target, ctx):
     """The implementation of the `rust_proto_aspect` aspect

     Args:
         target (Target): The target to which the aspect is applied
         ctx (ctx): The rule context which the targetis created from

     Returns:
         list: A list containg a `RustProtoInfo` provider
     """
     if ProtoInfo not in target:
         return None

     if hasattr(ctx.rule.attr, "proto_source_root"):
         source_root = ctx.rule.attr.proto_source_root
     else:
         source_root = ""

     if source_root and source_root[-1] != "/":
         source_root += "/"

     sources = [
         _compute_proto_source_path(f, source_root)
         for f in target[ProtoInfo].direct_sources
     ]
     transitive_sources = [
         f[RustProtoInfo].transitive_proto_sources
         for f in ctx.rule.attr.deps
         if RustProtoInfo in f
     ]
     return [RustProtoInfo(
         proto_sources = sources,
         transitive_proto_sources = depset(transitive = transitive_sources, direct = sources),
     )]

 _rust_proto_aspect = aspect(
     doc = "An aspect that gathers rust proto direct and transitive sources",
     implementation = _rust_proto_aspect_impl,
     attr_aspects = ["deps"],
 )

 def _gen_lib(ctx, grpc, srcs, lib):
     """Generate a lib.rs file for the crates.

     Args:
         ctx (ctx): The current rule's context object
         grpc (bool): True if the current rule is a `gRPC` rule.
         srcs (list): A list of protoc suitible file paths (str).
         lib (File): The File object where the rust source file should be written
     """
     content = ["extern crate protobuf;"]
     if grpc:
         content.append("extern crate grpc;")
         content.append("extern crate tls_api;")
     for f in srcs.to_list():
         content.append("pub mod %s;" % _generated_file_stem(f))
         content.append("pub use %s::*;" % _generated_file_stem(f))
         if grpc:
             content.append("pub mod %s_grpc;" % _generated_file_stem(f))
             content.append("pub use %s_grpc::*;" % _generated_file_stem(f))
     ctx.actions.write(lib, "\n".join(content))

 def _expand_provider(lst, provider):
     """Gathers a list of a specific provider from a list of targets.

     Args:
         lst (list): A list of Targets
         provider (Provider): The target provider type to extract `lst`

     Returns:
         list: A list of providers of the type from `provider`.
     """
     return [el[provider] for el in lst if provider in el]

 def _rust_proto_compile(protos, descriptor_sets, imports, crate_name, ctx, is_grpc, compile_deps, toolchain):
     """Create and run a rustc compile action based on the current rule's attributes

     Args:
         protos (depset): Paths of protos to compile.
         descriptor_sets (depset): A set of transitive protobuf `FileDescriptorSet`s
         imports (depset): A set of transitive protobuf Imports.
         crate_name (str): The name of the Crate for the current target
         ctx (ctx): The current rule's context object
         is_grpc (bool): True if the current rule is a `gRPC` rule.
         compile_deps (list): A list of Rust dependencies (`List[Target]`)
         toolchain (rust_toolchain): the current `rust_toolchain`.

     Returns:
         list: A list of providers, see `rustc_compile_action`
     """

     # Create all the source in a specific folder
     proto_toolchain = ctx.toolchains[Label("//proto/protobuf:toolchain_type")]
     output_dir = "%s.%s.rust" % (crate_name, "grpc" if is_grpc else "proto")

     # Generate the proto stubs
     srcs = _generate_proto(
         ctx,
         descriptor_sets,
         protos = protos,
         imports = imports,
         output_dir = output_dir,
         proto_toolchain = proto_toolchain,
         is_grpc = is_grpc,
     )

     # and lib.rs
     lib_rs = ctx.actions.declare_file("%s/lib.rs" % output_dir)
     _gen_lib(ctx, is_grpc, protos, lib_rs)
     srcs.append(lib_rs)

     # And simulate rust_library behavior
     output_hash = determine_output_hash(lib_rs, ctx.label)
     rust_lib = ctx.actions.declare_file("%s/lib%s-%s.rlib" % (
         output_dir,
         crate_name,
         output_hash,
     ))
     rust_metadata = None
     if can_build_metadata(toolchain, ctx, "rlib"):
         rust_metadata = ctx.actions.declare_file("%s/lib%s-%s.rmeta" % (
             output_dir,
             crate_name,
             output_hash,
         ))

     # Gather all dependencies for compilation
     compile_action_deps = depset(
         transform_deps(
             compile_deps +
             proto_toolchain.grpc_compile_deps if is_grpc else proto_toolchain.proto_compile_deps,
         ),
     )

     providers = rustc_compile_action(
         ctx = ctx,
         attr = ctx.attr,
         toolchain = toolchain,
         crate_info_dict = dict(
             name = crate_name,
             type = "rlib",
             root = lib_rs,
             srcs = depset(srcs),
             deps = compile_action_deps,
             proc_macro_deps = depset([]),
             aliases = {},
             output = rust_lib,
             metadata = rust_metadata,
             edition = proto_toolchain.edition,
             rustc_env = {},
             is_test = False,
             compile_data = depset([target.files for target in getattr(ctx.attr, "compile_data", [])]),
             compile_data_targets = depset(getattr(ctx.attr, "compile_data", [])),
             wrapped_crate_type = None,
             owner = ctx.label,
         ),
         output_hash = output_hash,
     )
     providers.append(OutputGroupInfo(rust_generated_srcs = srcs))
     return providers

 def _rust_protogrpc_library_impl(ctx, is_grpc):
     """Implementation of the rust_(proto|grpc)_library.

     Args:
         ctx (ctx): The current rule's context object
         is_grpc (bool): True if the current rule is a `gRPC` rule.

     Returns:
         list: A list of providers, see `_rust_proto_compile`
     """
     proto = _expand_provider(ctx.attr.deps, ProtoInfo)
     transitive_sources = [
         f[RustProtoInfo].transitive_proto_sources
         for f in ctx.attr.deps
         if RustProtoInfo in f
     ]

     toolchain = find_toolchain(ctx)
     crate_name = compute_crate_name(ctx.workspace_name, ctx.label, toolchain, ctx.attr.crate_name)

     return _rust_proto_compile(
         protos = depset(transitive = transitive_sources),
         descriptor_sets = depset(transitive = [p.transitive_descriptor_sets for p in proto]),
         imports = depset(transitive = [p.transitive_imports for p in proto]),
         crate_name = crate_name,
         ctx = ctx,
         is_grpc = is_grpc,
         compile_deps = ctx.attr.rust_deps,
         toolchain = toolchain,
     )

 def _rust_proto_library_impl(ctx):
     """The implementation of the `rust_proto_library` rule

     Args:
         ctx (ctx): The rule's context object.

     Returns:
         list: A list of providers, see `_rust_protogrpc_library_impl`
     """
     return _rust_protogrpc_library_impl(ctx, False)

 rust_proto_library = rule(
     implementation = _rust_proto_library_impl,
     attrs = {
         "crate_name": attr.string(
             doc = """\
                 Crate name to use for this target.

                 This must be a valid Rust identifier, i.e. it may contain only alphanumeric characters and underscores.
                 Defaults to the target name, with any hyphens replaced by underscores.
             """,
         ),
         "deps": attr.label_list(
             doc = (
                 "List of proto_library dependencies that will be built. " +
                 "One crate for each proto_library will be created with the corresponding stubs."
             ),
             mandatory = True,
             providers = [ProtoInfo],
             aspects = [_rust_proto_aspect],
         ),
         "rust_deps": attr.label_list(
             doc = "The crates the generated library depends on.",
         ),
         "rustc_flags": attr.string_list(
             doc = """\
                 List of compiler flags passed to `rustc`.

                 These strings are subject to Make variable expansion for predefined
                 source/output path variables like `$location`, `$execpath`, and
                 `$rootpath`. This expansion is useful if you wish to pass a generated
                 file of arguments to rustc: `@$(location //package:target)`.
             """,
         ),
         "_cc_toolchain": attr.label(
             default = Label("@bazel_tools//tools/cpp:current_cc_toolchain"),
         ),
         "_optional_output_wrapper": attr.label(
             executable = True,
             cfg = "exec",
             default = Label("//proto/protobuf:optional_output_wrapper"),
         ),
         "_process_wrapper": attr.label(
             default = Label("//util/process_wrapper"),
             executable = True,
             allow_single_file = True,
             cfg = "exec",
         ),
     },
     fragments = ["cpp"],
     toolchains = [
         str(Label("//proto/protobuf:toolchain_type")),
         str(Label("//rust:toolchain_type")),
         "@bazel_tools//tools/cpp:toolchain_type",
     ],
     doc = """\
 Builds a Rust library crate from a set of `proto_library`s.

 Example:

 ```python
 load("@rules_rust//proto/protobuf:defs.bzl", "rust_proto_library")

 proto_library(
     name = "my_proto",
     srcs = ["my.proto"]
 )

 rust_proto_library(
     name = "rust",
     deps = [":my_proto"],
 )

 rust_binary(
     name = "my_proto_binary",
     srcs = ["my_proto_binary.rs"],
     deps = [":rust"],
 )
 ```
 """,
 )

 def _rust_grpc_library_impl(ctx):
     """The implementation of the `rust_grpc_library` rule

     Args:
         ctx (ctx): The rule's context object

     Returns:
         list: A list of providers. See `_rust_protogrpc_library_impl`
     """
     return _rust_protogrpc_library_impl(ctx, True)

 rust_grpc_library = rule(
     implementation = _rust_grpc_library_impl,
     attrs = {
         "crate_name": attr.string(
             doc = """\
                 Crate name to use for this target.

                 This must be a valid Rust identifier, i.e. it may contain only alphanumeric characters and underscores.
                 Defaults to the target name, with any hyphens replaced by underscores.
             """,
         ),
         "deps": attr.label_list(
             doc = (
                 "List of proto_library dependencies that will be built. " +
                 "One crate for each proto_library will be created with the corresponding gRPC stubs."
             ),
             mandatory = True,
             providers = [ProtoInfo],
             aspects = [_rust_proto_aspect],
         ),
         "rust_deps": attr.label_list(
             doc = "The crates the generated library depends on.",
         ),
         "rustc_flags": attr.string_list(
             doc = """\
                 List of compiler flags passed to `rustc`.

                 These strings are subject to Make variable expansion for predefined
                 source/output path variables like `$location`, `$execpath`, and
                 `$rootpath`. This expansion is useful if you wish to pass a generated
                 file of arguments to rustc: `@$(location //package:target)`.
             """,
         ),
         "_cc_toolchain": attr.label(
             default = "@bazel_tools//tools/cpp:current_cc_toolchain",
         ),
         "_optional_output_wrapper": attr.label(
             executable = True,
             cfg = "exec",
             default = Label("//proto/protobuf:optional_output_wrapper"),
         ),
         "_process_wrapper": attr.label(
             default = Label("//util/process_wrapper"),
             executable = True,
             allow_single_file = True,
             cfg = "exec",
         ),
     },
     fragments = ["cpp"],
     toolchains = [
         str(Label("//proto/protobuf:toolchain_type")),
         str(Label("//rust:toolchain_type")),
         "@bazel_tools//tools/cpp:toolchain_type",
     ],
     doc = """\
 Builds a Rust library crate from a set of `proto_library`s suitable for gRPC.

 Example:

 ```python
 load("@rules_rust//proto/protobuf:defs.bzl", "rust_grpc_library")

 proto_library(
     name = "my_proto",
     srcs = ["my.proto"]
 )

 rust_grpc_library(
     name = "rust",
     deps = [":my_proto"],
 )

 rust_binary(
     name = "my_service",
     srcs = ["my_service.rs"],
     deps = [":rust"],
 )
 ```
 """,
 )
	# Copyright 2018 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.

	"""Rust Protobuf Rules"""

	load("@rules_proto//proto:defs.bzl", "ProtoInfo")
	load(
	"//proto/protobuf:toolchain.bzl",
	_generate_proto = "rust_generate_proto",
	_generated_file_stem = "generated_file_stem",
	)

	# buildifier: disable=bzl-visibility
	load("//rust/private:rustc.bzl", "rustc_compile_action")

	# buildifier: disable=bzl-visibility
	load("//rust/private:utils.bzl", "can_build_metadata", "compute_crate_name", "determine_output_hash", "find_toolchain", "transform_deps")

	RustProtoInfo = provider(
	doc = "Rust protobuf provider info",
	fields = {
	"proto_sources": "List[string]: list of source paths of protos",
	"transitive_proto_sources": "depset[string]",
	},
	)

	def _compute_proto_source_path(file, source_root_attr):
	"""Take the short path of file and make it suitable for protoc.

	Args:
	file (File): The target source file.
	source_root_attr (str): The directory relative to which the `.proto` \
	files defined in the proto_library are defined.

	Returns:
	str: The protoc suitible path of `file`
	"""

	# Bazel creates symlinks to the .proto files under a directory called
	# "_virtual_imports/<rule name>" if we do any sort of munging of import
	# paths (e.g. using strip_import_prefix / import_prefix attributes)
	virtual_imports = "/_virtual_imports/"
	if virtual_imports in file.path:
	return file.path.split(virtual_imports)[1].split("/", 1)[1]

	# For proto, they need to be requested with their absolute name to be
	# compatible with the descriptor_set passed by proto_library.
	# I.e. if you compile a protobuf at @repo1//package:file.proto, the proto
	# compiler would generate a file descriptor with the path
	# `package/file.proto`. Since we compile from the proto descriptor, we need
	# to pass the list of descriptors and the list of path to compile.
	# For the precedent example, the file (noted `f`) would have
	# `f.short_path` returns `external/repo1/package/file.proto`.
	# In addition, proto_library can provide a proto_source_path to change the base
	# path, which should a be a prefix.
	path = file.short_path

	# Strip external prefix.
	path = path.split("/", 2)[2] if path.startswith("../") else path

	# Strip source_root.
	if path.startswith(source_root_attr):
	return path[len(source_root_attr):]
	else:
	return path

	def _rust_proto_aspect_impl(target, ctx):
	"""The implementation of the `rust_proto_aspect` aspect

	Args:
	target (Target): The target to which the aspect is applied
	ctx (ctx): The rule context which the targetis created from

	Returns:
	list: A list containg a `RustProtoInfo` provider
	"""
	if ProtoInfo not in target:
	return None

	if hasattr(ctx.rule.attr, "proto_source_root"):
	source_root = ctx.rule.attr.proto_source_root
	else:
	source_root = ""

	if source_root and source_root[-1] != "/":
	source_root += "/"

	sources = [
	_compute_proto_source_path(f, source_root)
	for f in target[ProtoInfo].direct_sources
	]
	transitive_sources = [
	f[RustProtoInfo].transitive_proto_sources
	for f in ctx.rule.attr.deps
	if RustProtoInfo in f
	]
	return [RustProtoInfo(
	proto_sources = sources,
	transitive_proto_sources = depset(transitive = transitive_sources, direct = sources),
	)]

	_rust_proto_aspect = aspect(
	doc = "An aspect that gathers rust proto direct and transitive sources",
	implementation = _rust_proto_aspect_impl,
	attr_aspects = ["deps"],
	)

	def _gen_lib(ctx, grpc, srcs, lib):
	"""Generate a lib.rs file for the crates.

	Args:
	ctx (ctx): The current rule's context object
	grpc (bool): True if the current rule is a `gRPC` rule.
	srcs (list): A list of protoc suitible file paths (str).
	lib (File): The File object where the rust source file should be written
	"""
	content = ["extern crate protobuf;"]
	if grpc:
	content.append("extern crate grpc;")
	content.append("extern crate tls_api;")
	for f in srcs.to_list():
	content.append("pub mod %s;" % _generated_file_stem(f))
	content.append("pub use %s::*;" % _generated_file_stem(f))
	if grpc:
	content.append("pub mod %s_grpc;" % _generated_file_stem(f))
	content.append("pub use %s_grpc::*;" % _generated_file_stem(f))
	ctx.actions.write(lib, "\n".join(content))

	def _expand_provider(lst, provider):
	"""Gathers a list of a specific provider from a list of targets.

	Args:
	lst (list): A list of Targets
	provider (Provider): The target provider type to extract `lst`

	Returns:
	list: A list of providers of the type from `provider`.
	"""
	return [el[provider] for el in lst if provider in el]

	def _rust_proto_compile(protos, descriptor_sets, imports, crate_name, ctx, is_grpc, compile_deps, toolchain):
	"""Create and run a rustc compile action based on the current rule's attributes

	Args:
	protos (depset): Paths of protos to compile.
	descriptor_sets (depset): A set of transitive protobuf `FileDescriptorSet`s
	imports (depset): A set of transitive protobuf Imports.
	crate_name (str): The name of the Crate for the current target
	ctx (ctx): The current rule's context object
	is_grpc (bool): True if the current rule is a `gRPC` rule.
	compile_deps (list): A list of Rust dependencies (`List[Target]`)
	toolchain (rust_toolchain): the current `rust_toolchain`.

	Returns:
	list: A list of providers, see `rustc_compile_action`
	"""

	# Create all the source in a specific folder
	proto_toolchain = ctx.toolchains[Label("//proto/protobuf:toolchain_type")]
	output_dir = "%s.%s.rust" % (crate_name, "grpc" if is_grpc else "proto")

	# Generate the proto stubs
	srcs = _generate_proto(
	ctx,
	descriptor_sets,
	protos = protos,
	imports = imports,
	output_dir = output_dir,
	proto_toolchain = proto_toolchain,
	is_grpc = is_grpc,
	)

	# and lib.rs
	lib_rs = ctx.actions.declare_file("%s/lib.rs" % output_dir)
	_gen_lib(ctx, is_grpc, protos, lib_rs)
	srcs.append(lib_rs)

	# And simulate rust_library behavior
	output_hash = determine_output_hash(lib_rs, ctx.label)
	rust_lib = ctx.actions.declare_file("%s/lib%s-%s.rlib" % (
	output_dir,
	crate_name,
	output_hash,
	))
	rust_metadata = None
	if can_build_metadata(toolchain, ctx, "rlib"):
	rust_metadata = ctx.actions.declare_file("%s/lib%s-%s.rmeta" % (
	output_dir,
	crate_name,
	output_hash,
	))

	# Gather all dependencies for compilation
	compile_action_deps = depset(
	transform_deps(
	compile_deps +
	proto_toolchain.grpc_compile_deps if is_grpc else proto_toolchain.proto_compile_deps,
	),
	)

	providers = rustc_compile_action(
	ctx = ctx,
	attr = ctx.attr,
	toolchain = toolchain,
	crate_info_dict = dict(
	name = crate_name,
	type = "rlib",
	root = lib_rs,
	srcs = depset(srcs),
	deps = compile_action_deps,
	proc_macro_deps = depset([]),
	aliases = {},
	output = rust_lib,
	metadata = rust_metadata,
	edition = proto_toolchain.edition,
	rustc_env = {},
	is_test = False,
	compile_data = depset([target.files for target in getattr(ctx.attr, "compile_data", [])]),
	compile_data_targets = depset(getattr(ctx.attr, "compile_data", [])),
	wrapped_crate_type = None,
	owner = ctx.label,
	),
	output_hash = output_hash,
	)
	providers.append(OutputGroupInfo(rust_generated_srcs = srcs))
	return providers

	def _rust_protogrpc_library_impl(ctx, is_grpc):
	"""Implementation of the rust_(proto\|grpc)_library.

	Args:
	ctx (ctx): The current rule's context object
	is_grpc (bool): True if the current rule is a `gRPC` rule.

	Returns:
	list: A list of providers, see `_rust_proto_compile`
	"""
	proto = _expand_provider(ctx.attr.deps, ProtoInfo)
	transitive_sources = [
	f[RustProtoInfo].transitive_proto_sources
	for f in ctx.attr.deps
	if RustProtoInfo in f
	]

	toolchain = find_toolchain(ctx)
	crate_name = compute_crate_name(ctx.workspace_name, ctx.label, toolchain, ctx.attr.crate_name)

	return _rust_proto_compile(
	protos = depset(transitive = transitive_sources),
	descriptor_sets = depset(transitive = [p.transitive_descriptor_sets for p in proto]),
	imports = depset(transitive = [p.transitive_imports for p in proto]),
	crate_name = crate_name,
	ctx = ctx,
	is_grpc = is_grpc,
	compile_deps = ctx.attr.rust_deps,
	toolchain = toolchain,
	)

	def _rust_proto_library_impl(ctx):
	"""The implementation of the `rust_proto_library` rule

	Args:
	ctx (ctx): The rule's context object.

	Returns:
	list: A list of providers, see `_rust_protogrpc_library_impl`
	"""
	return _rust_protogrpc_library_impl(ctx, False)

	rust_proto_library = rule(
	implementation = _rust_proto_library_impl,
	attrs = {
	"crate_name": attr.string(
	doc = """\
	Crate name to use for this target.

	This must be a valid Rust identifier, i.e. it may contain only alphanumeric characters and underscores.
	Defaults to the target name, with any hyphens replaced by underscores.
	""",
	),
	"deps": attr.label_list(
	doc = (
	"List of proto_library dependencies that will be built. " +
	"One crate for each proto_library will be created with the corresponding stubs."
	),
	mandatory = True,
	providers = [ProtoInfo],
	aspects = [_rust_proto_aspect],
	),
	"rust_deps": attr.label_list(
	doc = "The crates the generated library depends on.",
	),
	"rustc_flags": attr.string_list(
	doc = """\
	List of compiler flags passed to `rustc`.

	These strings are subject to Make variable expansion for predefined
	source/output path variables like `$location`, `$execpath`, and
	`$rootpath`. This expansion is useful if you wish to pass a generated
	file of arguments to rustc: `@$(location //package:target)`.
	""",
	),
	"_cc_toolchain": attr.label(
	default = Label("@bazel_tools//tools/cpp:current_cc_toolchain"),
	),
	"_optional_output_wrapper": attr.label(
	executable = True,
	cfg = "exec",
	default = Label("//proto/protobuf:optional_output_wrapper"),
	),
	"_process_wrapper": attr.label(
	default = Label("//util/process_wrapper"),
	executable = True,
	allow_single_file = True,
	cfg = "exec",
	),
	},
	fragments = ["cpp"],
	toolchains = [
	str(Label("//proto/protobuf:toolchain_type")),
	str(Label("//rust:toolchain_type")),
	"@bazel_tools//tools/cpp:toolchain_type",
	],
	doc = """\
	Builds a Rust library crate from a set of `proto_library`s.

	Example:

	```python
	load("@rules_rust//proto/protobuf:defs.bzl", "rust_proto_library")

	proto_library(
	name = "my_proto",
	srcs = ["my.proto"]
	)

	rust_proto_library(
	name = "rust",
	deps = [":my_proto"],
	)

	rust_binary(
	name = "my_proto_binary",
	srcs = ["my_proto_binary.rs"],
	deps = [":rust"],
	)
	```
	""",
	)

	def _rust_grpc_library_impl(ctx):
	"""The implementation of the `rust_grpc_library` rule

	Args:
	ctx (ctx): The rule's context object

	Returns:
	list: A list of providers. See `_rust_protogrpc_library_impl`
	"""
	return _rust_protogrpc_library_impl(ctx, True)

	rust_grpc_library = rule(
	implementation = _rust_grpc_library_impl,
	attrs = {
	"crate_name": attr.string(
	doc = """\
	Crate name to use for this target.

	This must be a valid Rust identifier, i.e. it may contain only alphanumeric characters and underscores.
	Defaults to the target name, with any hyphens replaced by underscores.
	""",
	),
	"deps": attr.label_list(
	doc = (
	"List of proto_library dependencies that will be built. " +
	"One crate for each proto_library will be created with the corresponding gRPC stubs."
	),
	mandatory = True,
	providers = [ProtoInfo],
	aspects = [_rust_proto_aspect],
	),
	"rust_deps": attr.label_list(
	doc = "The crates the generated library depends on.",
	),
	"rustc_flags": attr.string_list(
	doc = """\
	List of compiler flags passed to `rustc`.

	These strings are subject to Make variable expansion for predefined
	source/output path variables like `$location`, `$execpath`, and
	`$rootpath`. This expansion is useful if you wish to pass a generated
	file of arguments to rustc: `@$(location //package:target)`.
	""",
	),
	"_cc_toolchain": attr.label(
	default = "@bazel_tools//tools/cpp:current_cc_toolchain",
	),
	"_optional_output_wrapper": attr.label(
	executable = True,
	cfg = "exec",
	default = Label("//proto/protobuf:optional_output_wrapper"),
	),
	"_process_wrapper": attr.label(
	default = Label("//util/process_wrapper"),
	executable = True,
	allow_single_file = True,
	cfg = "exec",
	),
	},
	fragments = ["cpp"],
	toolchains = [
	str(Label("//proto/protobuf:toolchain_type")),
	str(Label("//rust:toolchain_type")),
	"@bazel_tools//tools/cpp:toolchain_type",
	],
	doc = """\
	Builds a Rust library crate from a set of `proto_library`s suitable for gRPC.

	Example:

	```python
	load("@rules_rust//proto/protobuf:defs.bzl", "rust_grpc_library")

	proto_library(
	name = "my_proto",
	srcs = ["my.proto"]
	)

	rust_grpc_library(
	name = "rust",
	deps = [":my_proto"],
	)

	rust_binary(
	name = "my_service",
	srcs = ["my_service.rs"],
	deps = [":rust"],
	)
	```
	""",
	)