mirror of https://github.com/bazelbuild/rules_cc
182 lines
7.7 KiB
Python
182 lines
7.7 KiB
Python
# Copyright 2024 The Bazel Authors. All rights reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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"""Utilities for creating cc debug package information outputs"""
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load("//cc:find_cc_toolchain.bzl", "CC_TOOLCHAIN_TYPE")
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load(":cc_helper.bzl", "linker_mode")
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load(":visibility.bzl", "INTERNAL_VISIBILITY")
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visibility(INTERNAL_VISIBILITY)
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def create_debug_packager_actions(
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ctx,
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cc_toolchain,
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dwp_output,
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*,
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cc_compilation_outputs,
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cc_debug_context,
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linking_mode,
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use_pic = True,
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lto_artifacts = []):
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"""Creates intermediate and final dwp creation action(s)
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Args:
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ctx: (RuleContext) the rule context
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cc_toolchain: (CcToolchainInfo) the cc toolchain
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dwp_output: (File) the output of the final dwp action
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cc_compilation_outputs: (CcCompilationOutputs)
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cc_debug_context: (DebugContext)
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linking_mode: (str) See cc_helper.bzl%linker_mode
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use_pic: (bool)
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lto_artifacts: ([CcLtoBackendArtifacts])
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"""
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dwo_files = _collect_transitive_dwo_artifacts(
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cc_compilation_outputs,
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cc_debug_context,
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linking_mode,
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use_pic,
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lto_artifacts,
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)
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# No inputs? Just generate a trivially empty .dwp.
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#
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# Note this condition automatically triggers for any build where fission is disabled.
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# Because rules referencing .dwp targets may be invoked with or without fission, we need
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# to support .dwp generation even when fission is disabled. Since no actual functionality
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# is expected then, an empty file is appropriate.
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dwo_files_list = dwo_files.to_list()
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if len(dwo_files_list) == 0:
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ctx.actions.write(dwp_output, "", False)
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return
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# We apply a hierarchical action structure to limit the maximum number of inputs to any
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# single action.
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#
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# While the dwp tool consumes .dwo files, it can also consume intermediate .dwp files,
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# allowing us to split a large input set into smaller batches of arbitrary size and order.
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# Aside from the parallelism performance benefits this offers, this also reduces input
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# size requirements: if a.dwo, b.dwo, c.dwo, and e.dwo are each 1 KB files, we can apply
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# two intermediate actions DWP(a.dwo, b.dwo) --> i1.dwp and DWP(c.dwo, e.dwo) --> i2.dwp.
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# When we then apply the final action DWP(i1.dwp, i2.dwp) --> finalOutput.dwp, the inputs
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# to this action will usually total far less than 4 KB.
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#
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# The actions form an n-ary tree with n == MAX_INPUTS_PER_DWP_ACTION. The tree is fuller
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# at the leaves than the root, but that both increases parallelism and reduces the final
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# action's input size.
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packager = _create_intermediate_dwp_packagers(ctx, dwp_output, cc_toolchain, cc_toolchain._dwp_files, dwo_files_list, 1)
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packager["outputs"].append(dwp_output)
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packager["arguments"].add("-o", dwp_output)
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ctx.actions.run(
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mnemonic = "CcGenerateDwp",
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tools = packager["tools"],
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executable = packager["executable"],
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toolchain = CC_TOOLCHAIN_TYPE,
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arguments = [packager["arguments"]],
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inputs = packager["inputs"],
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outputs = packager["outputs"],
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)
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def _collect_transitive_dwo_artifacts(cc_compilation_outputs, cc_debug_context, linking_mode, use_pic, lto_backend_artifacts):
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dwo_files = []
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transitive_dwo_files = depset()
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if use_pic:
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dwo_files.extend(cc_compilation_outputs.pic_dwo_files())
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else:
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dwo_files.extend(cc_compilation_outputs.dwo_files())
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if lto_backend_artifacts != None:
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for lto_backend_artifact in lto_backend_artifacts:
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if lto_backend_artifact.dwo_file() != None:
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dwo_files.append(lto_backend_artifact.dwo_file())
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if linking_mode != linker_mode.LINKING_DYNAMIC:
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if use_pic:
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transitive_dwo_files = cc_debug_context.pic_files
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else:
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transitive_dwo_files = cc_debug_context.files
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return depset(dwo_files, transitive = [transitive_dwo_files])
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def _get_intermediate_dwp_file(ctx, dwp_output, order_number):
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output_path = dwp_output.short_path
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# Since it is a dwp_output we can assume that it always
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# ends with .dwp suffix, because it is declared so in outputs
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# attribute.
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extension_stripped_output_path = output_path[0:len(output_path) - 4]
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intermediate_path = extension_stripped_output_path + "-" + str(order_number) + ".dwp"
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return ctx.actions.declare_file("_dwps/" + intermediate_path)
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def _create_intermediate_dwp_packagers(ctx, dwp_output, cc_toolchain, dwp_files, dwo_files, intermediate_dwp_count):
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intermediate_outputs = dwo_files
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# This long loop is a substitution for recursion, which is not currently supported in Starlark.
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for _ in range(2147483647):
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packagers = []
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current_packager = _new_dwp_action(ctx, cc_toolchain, dwp_files)
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inputs_for_current_packager = 0
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# Step 1: generate our batches. We currently break into arbitrary batches of fixed maximum
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# input counts, but we can always apply more intelligent heuristics if the need arises.
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for dwo_file in intermediate_outputs:
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if inputs_for_current_packager == 100:
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packagers.append(current_packager)
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current_packager = _new_dwp_action(ctx, cc_toolchain, dwp_files)
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inputs_for_current_packager = 0
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current_packager["inputs"].append(dwo_file)
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# add_all expands all directories to their contained files, see
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# https://bazel.build/rules/lib/builtins/Args#add_all. add doesn't
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# do that, so using add_all on the one-item list here allows us to
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# find dwo files in directories.
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current_packager["arguments"].add_all([dwo_file])
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inputs_for_current_packager += 1
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packagers.append(current_packager)
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# Step 2: given the batches, create the actions.
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if len(packagers) > 1:
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# If we have multiple batches, make them all intermediate actions, then pipe their outputs
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# into an additional level.
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intermediate_outputs = []
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for packager in packagers:
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intermediate_output = _get_intermediate_dwp_file(ctx, dwp_output, intermediate_dwp_count)
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intermediate_dwp_count += 1
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packager["outputs"].append(intermediate_output)
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packager["arguments"].add("-o", intermediate_output)
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ctx.actions.run(
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mnemonic = "CcGenerateIntermediateDwp",
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tools = packager["tools"],
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executable = packager["executable"],
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toolchain = CC_TOOLCHAIN_TYPE,
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arguments = [packager["arguments"]],
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inputs = packager["inputs"],
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outputs = packager["outputs"],
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)
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intermediate_outputs.append(intermediate_output)
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else:
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return packagers[0]
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# This is to fix buildifier errors, even though we should never reach this part of the code.
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return None
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def _new_dwp_action(ctx, cc_toolchain, dwp_tools):
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return {
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"arguments": ctx.actions.args(),
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"executable": cc_toolchain._tool_paths.get("dwp", None),
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"inputs": [],
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"outputs": [],
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"tools": dwp_tools,
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}
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