"Implementation of tar rule" load("//lib:paths.bzl", "to_repository_relative_path") TAR_TOOLCHAIN_TYPE = "@aspect_bazel_lib//lib:tar_toolchain_type" # https://www.gnu.org/software/tar/manual/html_section/Compression.html _ACCEPTED_EXTENSIONS = [ ".tar", # uncompressed, ".gz", # gzip ".tgz", # gzip ".taz", # gzip ".Z", # compress ".taZ", # compress ".bz2", # bzip2 ".tz2", # bzip2 ".tbz2", # bzip2 ".tbz", # bzip2 ".lz", # lzip ".lzma", # lzma ".tlz", # lzma ".lzo", # lzop ".xz", # xz ".zst", # zstd ".tzst", # zstd ] _COMPRESSION_TO_EXTENSION = { "bzip2": ".tar.bz2", "compress": ".tar.Z", "gzip": ".tar.gz", "lrzip": ".tar.lrz", "lz4": ".tar.lz4", "lzma": ".tar.lzma", "lzop": ".tar.lzo", "xz": ".tar.xz", "zstd": ".tar.zst", } # https://www.gnu.org/software/tar/manual/html_section/Compression.html _ACCEPTED_COMPRESSION_TYPES = _COMPRESSION_TO_EXTENSION.keys() _tar_attrs = { "args": attr.string_list( doc = "Additional flags permitted by BSD tar; see the man page.", ), "srcs": attr.label_list( doc = """\ Files, directories, or other targets whose default outputs are placed into the tar. If any of the srcs are binaries with runfiles, those are copied into the resulting tar as well. """, allow_files = True, ), "mode": attr.string( doc = """A mode indicator from the following list, copied from the tar manpage: - create: Create a new archive containing the specified items. - append: Like `create`, but new entries are appended to the archive. Note that this only works on uncompressed archives stored in regular files. The -f option is required. - list: List archive contents to stdout. - update: Like `append`, but new entries are added only if they have a modification date newer than the corresponding entry in the archive. Note that this only works on uncompressed archives stored in regular files. The -f option is required. - extract: Extract to disk from the archive. If a file with the same name appears more than once in the archive, each copy will be extracted, with later copies overwriting (replacing) earlier copies. """, values = ["create"], # TODO: support other modes: ["append", "list", "update", "extract"] default = "create", ), "mtree": attr.label( doc = "An mtree specification file", allow_single_file = True, # Mandatory since it's the only way to set constant timestamps mandatory = True, ), "out": attr.output( doc = "Resulting tar file to write. If absent, `[name].tar` is written.", ), "compress": attr.string( doc = "Compress the archive file with a supported algorithm.", values = _ACCEPTED_COMPRESSION_TYPES, ), } _mtree_attrs = { "srcs": attr.label_list(doc = "Files that are placed into the tar", allow_files = True), "out": attr.output(doc = "Resulting specification file to write"), } def _add_compression_args(compress, args): if compress == "bzip2": args.add("--bzip2") if compress == "compress": args.add("--compress") if compress == "gzip": args.add("--gzip") if compress == "lrzip": args.add("--lrzip") if compress == "lzma": args.add("--lzma") if compress == "lz4": args.add("--lz4") if compress == "lzop": args.add("--lzop") if compress == "xz": args.add("--xz") if compress == "zstd": args.add("--zstd") def _calculate_runfiles_dir(default_info): manifest = default_info.files_to_run.runfiles_manifest # Newer versions of Bazel put the manifest besides the runfiles with the suffix .runfiles_manifest. # For example, the runfiles directory is named my_binary.runfiles then the manifest is beside the # runfiles directory and named my_binary.runfiles_manifest # Older versions of Bazel put the manifest file named MANIFEST in the runfiles directory # See similar logic: # https://github.com/aspect-build/rules_js/blob/c50bd3f797c501fb229cf9ab58e0e4fc11464a2f/js/private/bash.bzl#L63 if manifest.short_path.endswith("_manifest") or manifest.short_path.endswith("/MANIFEST"): # Trim last 9 characters, as that's the length in both cases return manifest.short_path[:-9] fail("manifest path {} seems malformed".format(manifest.short_path)) def _tar_impl(ctx): bsdtar = ctx.toolchains[TAR_TOOLCHAIN_TYPE] inputs = ctx.files.srcs[:] args = ctx.actions.args() # Set mode args.add(ctx.attr.mode, format = "--%s") # User-provided args first args.add_all(ctx.attr.args) # Compression args _add_compression_args(ctx.attr.compress, args) ext = _COMPRESSION_TO_EXTENSION[ctx.attr.compress] if ctx.attr.compress else ".tar" out = ctx.outputs.out or ctx.actions.declare_file(ctx.attr.name + ext) args.add("--file", out) args.add(ctx.file.mtree, format = "@%s") inputs.append(ctx.file.mtree) ctx.actions.run( executable = bsdtar.tarinfo.binary, inputs = depset(direct = inputs, transitive = [bsdtar.default.files] + [ src[DefaultInfo].default_runfiles.files for src in ctx.attr.srcs ]), outputs = [out], arguments = [args], mnemonic = "Tar", ) return DefaultInfo(files = depset([out]), runfiles = ctx.runfiles([out])) def _mtree_line(file, type, content = None, uid = "0", gid = "0", time = "1672560000", mode = "0755"): spec = [ file, "uid=" + uid, "gid=" + gid, "time=" + time, "mode=" + mode, "type=" + type, ] if content: spec.append("content=" + content) return " ".join(spec) # This function exactly same as the one from "@aspect_bazel_lib//lib:paths.bzl" # except that it takes workspace_name directly instead of the ctx object. # Reason is the performance of Args.add_all closures where we use this function. # https://bazel.build/rules/lib/builtins/Args#add_all `allow_closure` explains this. def _to_rlocation_path(file, workspace): if file.short_path.startswith("../"): return file.short_path[3:] else: return workspace + "/" + file.short_path def _vis_encode(filename): # TODO(#794): correctly encode all filenames by using vis(3) (or porting it) return filename.replace(" ", "\\040") def _expand(file, expander, transform = to_repository_relative_path): expanded = expander.expand(file) lines = [] for e in expanded: path = transform(e) segments = path.split("/") for i in range(1, len(segments)): parent = "/".join(segments[:i]) lines.append(_mtree_line(parent, "dir")) lines.append(_mtree_line(_vis_encode(path), "file", content = _vis_encode(e.path))) return lines def _mtree_impl(ctx): out = ctx.outputs.out or ctx.actions.declare_file(ctx.attr.name + ".spec") content = ctx.actions.args() content.set_param_file_format("multiline") content.add_all( ctx.files.srcs, map_each = _expand, expand_directories = True, uniquify = True, ) for s in ctx.attr.srcs: default_info = s[DefaultInfo] if not default_info.files_to_run.runfiles_manifest: continue runfiles_dir = _calculate_runfiles_dir(default_info) # copy workspace name here just in case to prevent ctx # to be transferred to execution phase. workspace_name = str(ctx.workspace_name) content.add(_mtree_line(runfiles_dir, type = "dir")) content.add_all( s.default_runfiles.files, expand_directories = True, uniquify = True, format_each = "{}/%s".format(runfiles_dir), # be careful about what you pass to _expand_for_runfiles as it will carry the data structures over to execution phase. map_each = lambda f, e: _expand(f, e, lambda f: _to_rlocation_path(f, workspace_name)), allow_closure = True, ) ctx.actions.write(out, content = content) return DefaultInfo(files = depset([out]), runfiles = ctx.runfiles([out])) tar_lib = struct( attrs = _tar_attrs, implementation = _tar_impl, mtree_attrs = _mtree_attrs, mtree_implementation = _mtree_impl, toolchain_type = TAR_TOOLCHAIN_TYPE, common = struct( accepted_tar_extensions = _ACCEPTED_EXTENSIONS, accepted_compression_types = _ACCEPTED_COMPRESSION_TYPES, compression_to_extension = _COMPRESSION_TO_EXTENSION, add_compression_args = _add_compression_args, ), ) tar = rule( doc = "Rule that executes BSD `tar`. Most users should use the [`tar`](#tar) macro, rather than load this directly.", implementation = tar_lib.implementation, attrs = tar_lib.attrs, toolchains = [tar_lib.toolchain_type], )