#!/usr/bin/env python3 # SPDX-License-Identifier: GPL-2.0 """generate_rust_analyzer - Generates the `rust-project.json` file for `rust-analyzer`. """ import argparse import json import logging import os import pathlib import sys def args_crates_cfgs(cfgs): crates_cfgs = {} for cfg in cfgs: crate, vals = cfg.split("=", 1) crates_cfgs[crate] = vals.replace("--cfg", "").split() return crates_cfgs def generate_crates(srctree, objtree, sysroot_src, external_src, cfgs): # Generate the configuration list. cfg = [] with open(objtree / "include" / "generated" / "rustc_cfg") as fd: for line in fd: line = line.replace("--cfg=", "") line = line.replace("\n", "") cfg.append(line) # Now fill the crates list -- dependencies need to come first. # # Avoid O(n^2) iterations by keeping a map of indexes. crates = [] crates_indexes = {} crates_cfgs = args_crates_cfgs(cfgs) def append_crate(display_name, root_module, deps, cfg=[], is_workspace_member=True, is_proc_macro=False): crates_indexes[display_name] = len(crates) crates.append({ "display_name": display_name, "root_module": str(root_module), "is_workspace_member": is_workspace_member, "is_proc_macro": is_proc_macro, "deps": [{"crate": crates_indexes[dep], "name": dep} for dep in deps], "cfg": cfg, "edition": "2021", "env": { "RUST_MODFILE": "This is only for rust-analyzer" } }) # First, the ones in `rust/` since they are a bit special. append_crate( "core", sysroot_src / "core" / "src" / "lib.rs", [], cfg=crates_cfgs.get("core", []), is_workspace_member=False, ) append_crate( "compiler_builtins", srctree / "rust" / "compiler_builtins.rs", [], ) append_crate( "macros", srctree / "rust" / "macros" / "lib.rs", [], is_proc_macro=True, ) crates[-1]["proc_macro_dylib_path"] = f"{objtree}/rust/libmacros.so" append_crate( "build_error", srctree / "rust" / "build_error.rs", ["core", "compiler_builtins"], ) append_crate( "bindings", srctree / "rust"/ "bindings" / "lib.rs", ["core"], cfg=cfg, ) crates[-1]["env"]["OBJTREE"] = str(objtree.resolve(True)) append_crate( "kernel", srctree / "rust" / "kernel" / "lib.rs", ["core", "macros", "build_error", "bindings"], cfg=cfg, ) crates[-1]["source"] = { "include_dirs": [ str(srctree / "rust" / "kernel"), str(objtree / "rust") ], "exclude_dirs": [], } def is_root_crate(build_file, target): try: return f"{target}.o" in open(build_file).read() except FileNotFoundError: return False # Then, the rest outside of `rust/`. # # We explicitly mention the top-level folders we want to cover. extra_dirs = map(lambda dir: srctree / dir, ("samples", "drivers")) if external_src is not None: extra_dirs = [external_src] for folder in extra_dirs: for path in folder.rglob("*.rs"): logging.info("Checking %s", path) name = path.name.replace(".rs", "") # Skip those that are not crate roots. if not is_root_crate(path.parent / "Makefile", name) and \ not is_root_crate(path.parent / "Kbuild", name): continue logging.info("Adding %s", name) append_crate( name, path, ["core", "kernel"], cfg=cfg, ) return crates def main(): parser = argparse.ArgumentParser() parser.add_argument('--verbose', '-v', action='store_true') parser.add_argument('--cfgs', action='append', default=[]) parser.add_argument("srctree", type=pathlib.Path) parser.add_argument("objtree", type=pathlib.Path) parser.add_argument("sysroot", type=pathlib.Path) parser.add_argument("sysroot_src", type=pathlib.Path) parser.add_argument("exttree", type=pathlib.Path, nargs="?") args = parser.parse_args() logging.basicConfig( format="[%(asctime)s] [%(levelname)s] %(message)s", level=logging.INFO if args.verbose else logging.WARNING ) # Making sure that the `sysroot` and `sysroot_src` belong to the same toolchain. assert args.sysroot in args.sysroot_src.parents rust_project = { "crates": generate_crates(args.srctree, args.objtree, args.sysroot_src, args.exttree, args.cfgs), "sysroot": str(args.sysroot), } json.dump(rust_project, sys.stdout, sort_keys=True, indent=4) if __name__ == "__main__": main()