"""Internal rules for building upb.""" load(":upb_proto_library.bzl", "GeneratedSrcsInfo") def _librule(name): return name + "_lib" runfiles_init = """\ # --- begin runfiles.bash initialization v2 --- # Copy-pasted from the Bazel Bash runfiles library v2. set -uo pipefail; f=bazel_tools/tools/bash/runfiles/runfiles.bash source "${RUNFILES_DIR:-/dev/null}/$f" 2>/dev/null || \ source "$(grep -sm1 "^$f " "${RUNFILES_MANIFEST_FILE:-/dev/null}" | cut -f2- -d' ')" 2>/dev/null || \ source "$0.runfiles/$f" 2>/dev/null || \ source "$(grep -sm1 "^$f " "$0.runfiles_manifest" | cut -f2- -d' ')" 2>/dev/null || \ source "$(grep -sm1 "^$f " "$0.exe.runfiles_manifest" | cut -f2- -d' ')" 2>/dev/null || \ { echo>&2 "ERROR: cannot find $f"; exit 1; }; f=; set -e # --- end runfiles.bash initialization v2 --- """ def _get_real_short_path(file): # For some reason, files from other archives have short paths that look like: # ../com_google_protobuf/google/protobuf/descriptor.proto short_path = file.short_path if short_path.startswith("../"): second_slash = short_path.index("/", 3) short_path = short_path[second_slash + 1:] return short_path def _get_real_root(file): real_short_path = _get_real_short_path(file) return file.path[:-len(real_short_path) - 1] def _get_real_roots(files): roots = {} for file in files: real_root = _get_real_root(file) if real_root: roots[real_root] = True return roots.keys() def _remove_prefix(str, prefix): if not str.startswith(prefix): fail("%s doesn't start with %s" % (str, prefix)) return str[len(prefix):] def _remove_suffix(str, suffix): if not str.endswith(suffix): fail("%s doesn't end with %s" % (str, suffix)) return str[:-len(suffix)] def make_shell_script(name, contents, out): contents = runfiles_init + contents # copybara:strip_for_google3 contents = contents.replace("$", "$$") native.genrule( name = "gen_" + name, outs = [out], cmd = "(cat <<'HEREDOC'\n%s\nHEREDOC\n) > $@" % contents, ) def generated_file_staleness_test(name, outs, generated_pattern): """Tests that checked-in file(s) match the contents of generated file(s). The resulting test will verify that all output files exist and have the correct contents. If the test fails, it can be invoked with --fix to bring the checked-in files up to date. Args: name: Name of the rule. outs: the checked-in files that are copied from generated files. generated_pattern: the pattern for transforming each "out" file into a generated file. For example, if generated_pattern="generated/%s" then a file foo.txt will look for generated file generated/foo.txt. """ script_name = name + ".py" script_src = "//:tools/staleness_test.py" # Filter out non-existing rules so Blaze doesn't error out before we even # run the test. existing_outs = native.glob(include = outs) # The file list contains a few extra bits of information at the end. # These get unpacked by the Config class in staleness_test_lib.py. file_list = outs + [generated_pattern, native.package_name() or ".", name] native.genrule( name = name + "_makescript", outs = [script_name], srcs = [script_src], testonly = 1, cmd = "cat $(location " + script_src + ") > $@; " + "sed -i.bak -e 's|INSERT_FILE_LIST_HERE|" + "\\\n ".join(file_list) + "|' $@", ) native.py_test( name = name, srcs = [script_name], data = existing_outs + [generated_pattern % file for file in outs], deps = [ "//:staleness_test_lib", ], ) # upb_amalgamation() rule, with file_list aspect. SrcList = provider( fields = { "srcs": "list of srcs", }, ) def _file_list_aspect_impl(target, ctx): if GeneratedSrcsInfo in target: srcs = target[GeneratedSrcsInfo] return [SrcList(srcs = srcs.srcs + srcs.hdrs)] srcs = [] for src in ctx.rule.attr.srcs: srcs += src.files.to_list() for hdr in ctx.rule.attr.hdrs: srcs += hdr.files.to_list() for hdr in ctx.rule.attr.textual_hdrs: srcs += hdr.files.to_list() return [SrcList(srcs = srcs)] _file_list_aspect = aspect( implementation = _file_list_aspect_impl, ) def _upb_amalgamation(ctx): inputs = [] for lib in ctx.attr.libs: inputs += lib[SrcList].srcs srcs = [src for src in inputs if src.path.endswith("c")] ctx.actions.run( inputs = inputs, outputs = ctx.outputs.outs, arguments = [ctx.bin_dir.path + "/", ctx.attr.prefix] + [f.path for f in srcs] + ["-I" + root for root in _get_real_roots(inputs)], progress_message = "Making amalgamation", executable = ctx.executable.amalgamator, ) return [] upb_amalgamation = rule( attrs = { "amalgamator": attr.label( executable = True, cfg = "host", ), "prefix": attr.string( default = "", ), "libs": attr.label_list(aspects = [_file_list_aspect]), "outs": attr.output_list(), }, implementation = _upb_amalgamation, ) def licenses(*args): # No-op (for Google-internal usage). pass