# Copyright 2019 The Chromium Authors
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
import("//build/config/android/config.gni")
import("//build/config/clang/clang.gni")
import("//build/config/compiler/compiler.gni")
if (build_with_chromium) {
import("//third_party/jni_zero/jni_zero.gni")
}
# This template creates a set of shared libraries, by linking a single
# "partitioned" shared library, then splitting it into multiple pieces.
# The intention is to facilitate code-splitting between a base library and
# additional feature-specific libraries that may be obtained and loaded at a
# later time.
#
# The combined library is an intermediate product made by leveraging the LLVM
# toolchain. Code modules may be labeled via compiler flag as belonging to a
# particular partition. At link time, any symbols reachable by only a single
# partition's entrypoints will be located in a partition-specific library
# segment. After linking, the segments are split apart using objcopy into
# separate libraries. The main library is then packaged with the application
# as usual, while feature libraries may be packaged, delivered and loaded
# separately (via an Android Dynamic Feature Module).
#
# When loading a feature library, the intended address of the library must be
# supplied to the loader, so that it can be mapped to the memory location. The
# address offsets of the feature libraries are stored in the base library and
# accessed through special symbols named according to the partitions.
#
# The template instantiates targets for the base library, as well as each
# specified partition, based on the root target name. Example:
#
# - libmonochrome (base library)
# - libmonochrome_foo (partition library for feature 'foo')
# - libmonochrome_bar (partition library for feature 'bar')
#
# Note that the feature library filenames are chosen based on the main
# library's name (eg. libmonochrome_foo.so), but the soname of the feature
# library is based on the feature name (eg. "foo"). This should generally be
# okay, with the caveat that loading the library multiple times *might* cause
# problems in Android.
#
# This template uses shared_library's default configurations.
#
# Variables:
# partitions: A list of library partition names to extract, in addition to
# the base library.
template("partitioned_shared_library") {
assert(is_clang)
forward_variables_from(invoker, [ "testonly" ])
_combined_library_target = "${target_name}__combined"
# Strip "lib" from target names; it will be re-added to output libraries.
_output_name = string_replace(target_name, "lib", "")
shared_library(_combined_library_target) {
forward_variables_from(invoker, "*", [ "partitions" ])
if (!defined(ldflags)) {
ldflags = []
}
ldflags += [
"-Wl,-soname,lib${_output_name}.so",
"--partitioned-library",
]
# This shared library is an intermediate artifact that should not packaged
# into the final build. Therefore, reset metadata.
metadata = {
}
}
template("partition_action") {
action(target_name) {
deps = [ ":$_combined_library_target" ]
script = "//build/extract_partition.py"
sources =
[ "$root_out_dir/lib.unstripped/lib${_output_name}__combined.so" ]
outputs = [
invoker.unstripped_output,
invoker.stripped_output,
]
data = [ invoker.unstripped_output ]
metadata = {
shared_libraries = [ invoker.stripped_output ]
}
args = [
"--objcopy",
rebase_path("$clang_base_path/bin/llvm-objcopy", root_build_dir),
"--unstripped-output",
rebase_path(invoker.unstripped_output, root_build_dir),
"--stripped-output",
rebase_path(invoker.stripped_output, root_build_dir),
]
if (defined(invoker.partition) && invoker.partition != "") {
args += [
"--partition",
"${invoker.partition}",
]
}
if (use_debug_fission) {
args += [ "--split-dwarf" ]
outputs += [ invoker.unstripped_output + ".dwp" ]
}
args += [ rebase_path(sources[0], root_build_dir) ]
}
}
partition_action(target_name) {
stripped_output = "$root_out_dir/lib${_output_name}.so"
unstripped_output = "$root_out_dir/lib.unstripped/lib${_output_name}.so"
}
# Note that as of now, non-base partition libraries are placed in a
# subdirectory of the root output directory. This is because partition
# sonames are not sensitive to the filename of the base library, and as such,
# their corresponding file names may be generated multiple times by different
# base libraries. To avoid collisions, each base library target has a
# corresponding subdir for its extra partitions.
#
# If this proves problematic to various pieces of infrastructure, a proposed
# alternative is allowing the linker to rename partitions. For example,
# feature "foo" may be a partition. If two different base libraries both
# define "foo" partitions, the linker may be made to accept an extra command
# to rename the partition's soname to "foo1" or "foo2". Other build config
# can name the libraries foo1.so and foo2.so, allowing them to reside in the
# same directory.
foreach(_partition, invoker.partitions) {
partition_action("${target_name}_${_partition}") {
partition = "${_partition}_partition"
stripped_output = "$root_out_dir/lib${_output_name}_${partition}.so"
unstripped_output =
"$root_out_dir/lib.unstripped/lib${_output_name}_${partition}.so"
}
}
}
set_defaults("partitioned_shared_library") {
configs = default_shared_library_configs
}
# native_with_jni for partitioned shared libraries - see native_with_jni for
# details.
template("partitioned_shared_library_with_jni") {
native_with_jni(target_name) {
forward_variables_from(invoker, "*", TESTONLY_AND_VISIBILITY)
forward_variables_from(invoker, TESTONLY_AND_VISIBILITY)
target_type = "partitioned_shared_library"
target_type_import = "//build/partitioned_shared_library.gni"
}
}
set_defaults("partitioned_shared_library_with_jni") {
configs = default_shared_library_configs
}
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