Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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# Copyright (c) 2009-2021, Google LLC
# All rights reserved.
#
# Use of this source code is governed by a BSD-style
# license that can be found in the LICENSE file or at
# https://developers.google.com/open-source/licenses/bsd
"""Public rules for using upb protos:
- upb_cc_proto_library()
"""
load("@bazel_skylib//lib:paths.bzl", "paths")
# begin:google_only
# load("@bazel_tools//tools/cpp:toolchain_utils.bzl", "find_cpp_toolchain", "use_cpp_toolchain")
#
# def upb_use_cpp_toolchain():
# return [
# config_common.toolchain_type(
# "@bazel_tools//tools/cpp:cc_runtimes_toolchain_type",
# mandatory = False,
# ),
# ] + use_cpp_toolchain()
#
# end:google_only
# begin:github_only
# Compatibility code for Bazel 4.x. Remove this when we drop support for Bazel 4.x.
load("@bazel_tools//tools/cpp:toolchain_utils.bzl", "find_cpp_toolchain")
load("//bazel:upb_proto_library.bzl", "GeneratedSrcsInfo", "UpbWrappedCcInfo", "upb_proto_library_aspect")
def upb_use_cpp_toolchain():
return ["@bazel_tools//tools/cpp:toolchain_type"]
# end:github_only
# Generic support code #########################################################
# begin:github_only
_is_google3 = False
# end:github_only
# begin:google_only
# _is_google3 = True
# end:google_only
def _get_real_short_path(file):
# For some reason, files from other archives have short paths that look like:
# ../com_google_protobuf/google/protobuf/descriptor.proto
short_path = file.short_path
if short_path.startswith("../"):
second_slash = short_path.index("/", 3)
short_path = short_path[second_slash + 1:]
# Sometimes it has another few prefixes like:
# _virtual_imports/any_proto/google/protobuf/any.proto
# benchmarks/_virtual_imports/100_msgs_proto/benchmarks/100_msgs.proto
# We want just google/protobuf/any.proto.
virtual_imports = "_virtual_imports/"
if virtual_imports in short_path:
short_path = short_path.split(virtual_imports)[1].split("/", 1)[1]
return short_path
def _get_real_root(file):
real_short_path = _get_real_short_path(file)
return file.path[:-len(real_short_path) - 1]
def _generate_output_file(ctx, src, extension):
real_short_path = _get_real_short_path(src)
real_short_path = paths.relativize(real_short_path, ctx.label.package)
output_filename = paths.replace_extension(real_short_path, extension)
ret = ctx.actions.declare_file(output_filename)
return ret
def _filter_none(elems):
out = []
for elem in elems:
if elem:
out.append(elem)
return out
def _cc_library_func(ctx, name, hdrs, srcs, copts, dep_ccinfos):
"""Like cc_library(), but callable from rules.
Args:
ctx: Rule context.
name: Unique name used to generate output files.
hdrs: Public headers that can be #included from other rules.
srcs: C/C++ source files.
copts: Additional options for cc compilation.
dep_ccinfos: CcInfo providers of dependencies we should build/link against.
Returns:
CcInfo provider for this compilation.
"""
# begin:google_only
# cc_runtimes_toolchain = ctx.toolchains["@bazel_tools//tools/cpp:cc_runtimes_toolchain_type"]
# if cc_runtimes_toolchain:
# dep_ccinfos += [
# target[CcInfo]
# for target in cc_runtimes_toolchain.cc_runtimes_info.runtimes
# ]
#
# end:google_only
compilation_contexts = [info.compilation_context for info in dep_ccinfos]
linking_contexts = [info.linking_context for info in dep_ccinfos]
toolchain = find_cpp_toolchain(ctx)
feature_configuration = cc_common.configure_features(
ctx = ctx,
cc_toolchain = toolchain,
requested_features = ctx.features,
unsupported_features = ctx.disabled_features,
)
(compilation_context, compilation_outputs) = cc_common.compile(
actions = ctx.actions,
feature_configuration = feature_configuration,
cc_toolchain = toolchain,
name = name,
srcs = srcs,
public_hdrs = hdrs,
user_compile_flags = copts,
compilation_contexts = compilation_contexts,
)
# buildifier: disable=unused-variable
(linking_context, linking_outputs) = cc_common.create_linking_context_from_compilation_outputs(
actions = ctx.actions,
name = name,
feature_configuration = feature_configuration,
cc_toolchain = toolchain,
compilation_outputs = compilation_outputs,
linking_contexts = linking_contexts,
)
return CcInfo(
compilation_context = compilation_context,
linking_context = linking_context,
)
# Dummy rule to expose select() copts to aspects ##############################
UpbCcProtoLibraryCoptsInfo = provider(
"Provides copts for upb cc proto targets",
fields = {
"copts": "copts for upb_cc_proto_library()",
},
)
def upb_cc_proto_library_copts_impl(ctx):
return UpbCcProtoLibraryCoptsInfo(copts = ctx.attr.copts)
upb_cc_proto_library_copts = rule(
implementation = upb_cc_proto_library_copts_impl,
attrs = {"copts": attr.string_list(default = [])},
)
_UpbCcWrappedCcInfo = provider("Provider for cc_info for protos", fields = ["cc_info"])
_WrappedCcGeneratedSrcsInfo = provider("Provider for generated sources", fields = ["srcs"])
def _compile_upb_cc_protos(ctx, generator, proto_info, proto_sources):
if len(proto_sources) == 0:
return GeneratedSrcsInfo(srcs = [], hdrs = [])
tool = getattr(ctx.executable, "_gen_" + generator)
srcs = [_generate_output_file(ctx, name, ".upb.proto.cc") for name in proto_sources]
hdrs = [_generate_output_file(ctx, name, ".upb.proto.h") for name in proto_sources]
hdrs += [_generate_output_file(ctx, name, ".upb.fwd.h") for name in proto_sources]
transitive_sets = proto_info.transitive_descriptor_sets.to_list()
args = ctx.actions.args()
args.use_param_file(param_file_arg = "@%s")
args.set_param_file_format("multiline")
args.add("--" + generator + "_out=" + _get_real_root(srcs[0]))
args.add("--plugin=protoc-gen-" + generator + "=" + tool.path)
args.add("--descriptor_set_in=" + ctx.configuration.host_path_separator.join([f.path for f in transitive_sets]))
args.add_all(proto_sources, map_each = _get_real_short_path)
ctx.actions.run(
inputs = depset(
direct = [proto_info.direct_descriptor_set],
transitive = [proto_info.transitive_descriptor_sets],
),
tools = [tool],
outputs = srcs + hdrs,
executable = ctx.executable._protoc,
arguments = [args],
progress_message = "Generating upb cc protos for :" + ctx.label.name,
)
return GeneratedSrcsInfo(srcs = srcs, hdrs = hdrs)
def _upb_cc_proto_rule_impl(ctx):
if len(ctx.attr.deps) != 1:
fail("only one deps dependency allowed.")
dep = ctx.attr.deps[0]
if _WrappedCcGeneratedSrcsInfo in dep:
srcs = dep[_WrappedCcGeneratedSrcsInfo].srcs
else:
fail("proto_library rule must generate _WrappedCcGeneratedSrcsInfo (aspect should have " +
"handled this).")
if _UpbCcWrappedCcInfo in dep:
cc_info = dep[_UpbCcWrappedCcInfo].cc_info
elif UpbWrappedCcInfo in dep:
cc_info = dep[UpbWrappedCcInfo].cc_info
else:
fail("proto_library rule must generate UpbWrappedCcInfo or " +
"_UpbCcWrappedCcInfo (aspect should have handled this).")
lib = cc_info.linking_context.linker_inputs.to_list()[0].libraries[0]
files = _filter_none([
lib.static_library,
lib.pic_static_library,
lib.dynamic_library,
])
return [
DefaultInfo(files = depset(files + srcs.hdrs + srcs.srcs)),
srcs,
cc_info,
]
def _upb_cc_proto_aspect_impl(target, ctx, generator, cc_provider, file_provider):
proto_info = target[ProtoInfo]
files = _compile_upb_cc_protos(ctx, generator, proto_info, proto_info.direct_sources)
deps = ctx.rule.attr.deps + getattr(ctx.attr, "_" + generator)
dep_ccinfos = [dep[CcInfo] for dep in deps if CcInfo in dep]
dep_ccinfos += [dep[UpbWrappedCcInfo].cc_info for dep in deps if UpbWrappedCcInfo in dep]
dep_ccinfos += [dep[_UpbCcWrappedCcInfo].cc_info for dep in deps if _UpbCcWrappedCcInfo in dep]
if UpbWrappedCcInfo not in target:
fail("Target should have UpbWrappedCcInfo provider")
dep_ccinfos.append(target[UpbWrappedCcInfo].cc_info)
cc_info = _cc_library_func(
ctx = ctx,
name = ctx.rule.attr.name + "." + generator,
hdrs = files.hdrs,
srcs = files.srcs,
copts = ctx.attr._ccopts[UpbCcProtoLibraryCoptsInfo].copts,
dep_ccinfos = dep_ccinfos,
)
return [cc_provider(cc_info = cc_info), file_provider(srcs = files)]
def _upb_cc_proto_library_aspect_impl(target, ctx):
return _upb_cc_proto_aspect_impl(target, ctx, "upbprotos", _UpbCcWrappedCcInfo, _WrappedCcGeneratedSrcsInfo)
_upb_cc_proto_library_aspect = aspect(
attrs = {
"_ccopts": attr.label(
default = "//protos:upb_cc_proto_library_copts__for_generated_code_only_do_not_use",
),
"_gen_upbprotos": attr.label(
executable = True,
cfg = "exec",
default = "//protos_generator:protoc-gen-upb-protos",
),
"_protoc": attr.label(
executable = True,
cfg = "exec",
default = "//:protoc",
),
"_cc_toolchain": attr.label(
default = "@bazel_tools//tools/cpp:current_cc_toolchain",
),
"_upbprotos": attr.label_list(
default = [
# TODO: Add dependencies for cc runtime (absl/string etc..)
"//upb:generated_cpp_support__only_for_generated_code_do_not_use__i_give_permission_to_break_me",
"//protos:generated_protos_support__only_for_generated_code_do_not_use__i_give_permission_to_break_me",
"@com_google_absl//absl/strings",
"@com_google_absl//absl/status:statusor",
"//protos",
"//protos:repeated_field",
],
),
},
implementation = _upb_cc_proto_library_aspect_impl,
provides = [
_UpbCcWrappedCcInfo,
_WrappedCcGeneratedSrcsInfo,
],
required_aspect_providers = [
UpbWrappedCcInfo,
],
attr_aspects = ["deps"],
fragments = ["cpp"],
toolchains = upb_use_cpp_toolchain(),
)
upb_cc_proto_library = rule(
implementation = _upb_cc_proto_rule_impl,
attrs = {
"deps": attr.label_list(
aspects = [
upb_proto_library_aspect,
_upb_cc_proto_library_aspect,
],
allow_rules = ["proto_library"],
providers = [ProtoInfo],
),
"_ccopts": attr.label(
default = "//protos:upb_cc_proto_library_copts__for_generated_code_only_do_not_use",
),
},
)