.. _module-pw_protobuf_compiler: -------------------- pw_protobuf_compiler -------------------- The Protobuf compiler module provides build system integration and wrapper scripts for generating source code for Protobuf definitions. Generator support ================= Protobuf code generation is currently supported for the following generators: +-------------+----------------+-----------------------------------------------+ | Generator | Code | Notes | +-------------+----------------+-----------------------------------------------+ | pw_protobuf | ``pwpb`` | Compiles using ``pw_protobuf``. | +-------------+----------------+-----------------------------------------------+ | Nanopb | ``nanopb`` | Compiles using Nanopb. The build argument | | | | ``dir_pw_third_party_nanopb`` must be set to | | | | point to a local nanopb installation. | +-------------+----------------+-----------------------------------------------+ | Nanopb RPC | ``nanopb_rpc`` | Compiles pw_rpc service and client code for | | | | nanopb. Requires a nanopb installation. | +-------------+----------------+-----------------------------------------------+ | Raw RPC | ``raw_rpc`` | Compiles raw binary pw_rpc service code. | +-------------+----------------+-----------------------------------------------+ | Go | ``go`` | Compiles using the standard Go protobuf | | | | plugin with gRPC service support. | +-------------+----------------+-----------------------------------------------+ | Python | ``python`` | Compiles using the standard Python protobuf | | | | plugin, creating a ``pw_python_package``. | +-------------+----------------+-----------------------------------------------+ GN template =========== This module provides a ``pw_proto_library`` GN template that defines a collection of protobuf files that should be compiled together. The template creates a sub-target for each supported generator, named ``.``. These sub-targets generate their respective protobuf code, and expose it to the build system appropriately (e.g. a ``pw_source_set`` for C/C++). For example, given the following target: .. code-block:: pw_proto_library("test_protos") { sources = [ "my_test_protos/test.proto" ] } ``test_protos.pwpb`` compiles code for pw_protobuf, and ``test_protos.nanopb`` compiles using Nanopb (if it's installed). Protobuf code is only generated when a generator sub-target is listed as a dependency of another GN target. GN permits using abbreviated labels when the target name matches the directory name (e.g. ``//foo`` for ``//foo:foo``). For consistency with this, the sub-targets for each generator are aliased to the directory when the target name is the same. For example, these two labels are equivalent: .. code-block:: //path/to/my_protos:my_protos.pwpb //path/to/my_protos:pwpb ``pw_python_package`` subtargets are also available on the ``python`` subtarget: .. code-block:: //path/to/my_protos:my_protos.python.lint //path/to/my_protos:python.lint **Supported Codegen** GN supports the following compiled proto libraries via the specified sub-targets generated by a ``pw_proto_library``. * ``${target_name}.pwpb`` - Generated C++ pw_protobuf code * ``${target_name}.nanopb`` - Generated C++ nanopb code (requires Nanopb) * ``${target_name}.nanopb_rpc`` - Generated C++ Nanopb pw_rpc code (requires Nanopb) * ``${target_name}.raw_rpc`` - Generated C++ raw pw_rpc code (no protobuf library) * ``${target_name}.go`` - Generated GO protobuf libraries * ``${target_name}.python`` - Generated Python protobuf libraries **Arguments** * ``sources``: List of input .proto files. * ``deps``: List of other pw_proto_library dependencies. * ``inputs``: Other files on which the protos depend (e.g. nanopb ``.options`` files). * ``prefix``: A prefix to add to the source protos prior to compilation. For example, a source called ``"foo.proto"`` with ``prefix = "nested"`` will be compiled with protoc as ``"nested/foo.proto"``. * ``strip_prefix``: Remove this prefix from the source protos. All source and input files must be nested under this path. * ``python_package``: Label of Python package to which to add the proto modules. The .python subtarget will redirect to this package. **Example** .. code-block:: import("$dir_pw_protobuf_compiler/proto.gni") pw_proto_library("my_protos") { sources = [ "my_protos/foo.proto", "my_protos/bar.proto", ] } pw_proto_library("my_other_protos") { sources = [ "some/other/path/baz.proto" ] # imports foo.proto # This removes the "some/other/path" prefix from the proto files. strip_prefix = "some/other/path" # This adds the "my_other_protos/" prefix to the proto files. prefix = "my_other_protos" # Proto libraries depend on other proto libraries directly. deps = [ ":my_protos" ] } source_set("my_cc_code") { sources = [ "foo.cc", "bar.cc", "baz.cc", ] # When depending on protos in a source_set, specify the generator suffix. deps = [ ":my_other_protos.pwpb" ] } From C++, ``baz.proto`` included as follows: .. code-block:: cpp #include "my_other_protos/baz.pwpb.h" From Python, ``baz.proto`` is imported as follows: .. code-block:: python from my_other_protos import baz_pb2 Proto file structure -------------------- Protobuf source files must be nested under another directory when they are compiled. This ensures that they can be packaged properly in Python. The first directory is used as the Python package name, so must be unique across the build. The ``prefix`` option may be used to set this directory. Using ``prefix`` and ``strip_prefix`` together allows remapping proto files to a completely different path. This can be useful when working with protos defined in external libraries. For example, consider this proto library: .. code-block:: pw_proto_library("external_protos") { sources = [ "//other/external/some_library/src/protos/alpha.proto", "//other/external/some_library/src/protos/beta.proto, "//other/external/some_library/src/protos/internal/gamma.proto", ] strip_prefix = "//other/external/some_library/src/protos" prefix = "some_library" } These protos will be compiled by protoc as if they were in this file structure: .. code-block:: some_library/ ├── alpha.proto ├── beta.proto └── internal └── gamma.proto .. _module-pw_protobuf_compiler-add-to-python-package: Adding Python proto modules to an existing package -------------------------------------------------- By default, generated Python proto modules are organized into their own Python package. These proto modules can instead be added to an existing Python package declared with ``pw_python_package``. This is done by setting the ``python_package`` argument on the ``pw_proto_library`` and the ``proto_library`` argument on the ``pw_python_package``. For example, the protos declared in ``my_protos`` will be nested in the Python package declared by ``my_package``. .. code-block:: pw_proto_library("my_protos") { sources = [ "hello.proto ] prefix = "foo" python_package = ":my_package" } pw_python_pacakge("my_package") { generate_setup = { name = "foo" version = "1.0" } sources = [ "foo/cool_module.py" ] proto_library = ":my_protos" } The ``hello_pb2.py`` proto module can be used alongside other files in the ``foo`` package. .. code-block:: python from foo import cool_module, hello_pb2 Working with externally defined protos -------------------------------------- ``pw_proto_library`` targets may be used to build ``.proto`` sources from existing projects. In these cases, it may be necessary to supply the ``strip_prefix`` argument, which specifies the protobuf include path to use for ``protoc``. If only a single external protobuf is being compiled, the ``python_module_as_package`` option can be used to override the requirement that the protobuf be nested under a directory. This option generates a Python package with the same name as the proto file, so that the generated proto can be imported as if it were a standalone Python module. For example, the ``pw_proto_library`` target for Nanopb sets ``python_module_as_package`` to ``nanopb_pb2``. .. code-block:: pw_proto_library("proto") { strip_prefix = "$dir_pw_third_party_nanopb/generator/proto" sources = [ "$dir_pw_third_party_nanopb/generator/proto/nanopb.proto" ] python_module_as_package = "nanopb_pb2" } In Python, this makes ``nanopb.proto`` available as ``import nanopb_pb2`` via the ``nanopb_pb2`` Python package. In C++, ``nanopb.proto`` is accessed as ``#include "nanopb.pwpb.h"``. The ``python_module_as_package`` feature should only be used when absolutely necessary --- for example, to support proto files that include ``import "nanopb.proto"``. CMake ===== CMake provides a ``pw_proto_library`` function with similar features as the GN template. The CMake build only supports building firmware code, so ``pw_proto_library`` does not generate a Python package. **Arguments** * ``NAME``: the base name of the libraries to create * ``SOURCES``: .proto source files * ``DEPS``: dependencies on other ``pw_proto_library`` targets * ``PREFIX``: prefix add to the proto files * ``STRIP_PREFIX``: prefix to remove from the proto files * ``INPUTS``: files to include along with the .proto files (such as Nanopb .options files) **Example** .. code-block:: cmake include($ENV{PW_ROOT}/pw_build/pigweed.cmake) include($ENV{PW_ROOT}/pw_protobuf_compiler/proto.cmake) pw_proto_library(my_module.my_protos SOURCES my_protos/foo.proto my_protos/bar.proto ) pw_proto_library(my_module.my_protos SOURCES my_protos/foo.proto my_protos/bar.proto ) pw_proto_library(my_module.my_other_protos SOURCES some/other/path/baz.proto # imports foo.proto # This removes the "some/other/path" prefix from the proto files. STRIP_PREFIX some/other/path # This adds the "my_other_protos/" prefix to the proto files. PREFIX my_other_protos # Proto libraries depend on other proto libraries directly. DEPS my_module.my_protos ) add_library(my_module.my_cc_code foo.cc bar.cc baz.cc ) # When depending on protos in a source_set, specify the generator suffix. target_link_libraries(my_module.my_cc_code PUBLIC my_module.my_other_protos.pwpb ) These proto files are accessed in C++ the same as in the GN build: .. code-block:: cpp #include "my_other_protos/baz.pwpb.h" **Supported Codegen** CMake supports the following compiled proto libraries via the specified sub-targets generated by a ``pw_proto_library``. * ``${NAME}.pwpb`` - Generated C++ pw_protobuf code * ``${NAME}.nanopb`` - Generated C++ nanopb code (requires Nanopb) * ``${NAME}.nanopb_rpc`` - Generated C++ Nanopb pw_rpc code (requires Nanopb) * ``${NAME}.raw_rpc`` - Generated C++ raw pw_rpc code (no protobuf library) Bazel ===== Bazel provides a ``pw_proto_library`` rule with similar features as the GN template. The Bazel build only supports building firmware code, so ``pw_proto_library`` does not generate a Python package. The Bazel rules differ slightly compared to the GN build to be more in line with what would be considered idiomatic in Bazel. To use Pigweeds Protobuf rules you must first pull in the required dependencies into your Bazel WORKSPACE file. e.g. .. code-block:: python # WORKSPACE ... load("@pigweed//pw_protobuf_compiler:deps.bzl", "pw_protobuf_dependencies") pw_protobuf_dependencies() Bazel uses a different set of rules to manage proto files than it does to compile them. e.g. .. code-block:: python # BUILD ... load("@rules_proto//proto:defs.bzl", "proto_library") load("@pigweed//pw_protobuf_compiler:proto.bzl", "pw_proto_library") # Manages proto sources and dependencies. proto_library( name = "my_proto", srcs = [ "my_protos/foo.proto", "my_protos/bar.proto", ] ) # Compiles dependant protos to C++. pw_proto_library( name = "my_cc_proto", deps = [":my_proto"], ) # Library that depends on generated proto targets. pw_cc_library( name = "my_lib", srcs = ["my/lib.cc"], deps = [":my_cc_proto"], ) From ``my/lib.cc`` you can now include the generated headers. e.g. .. code:: cpp #include "my_protos/bar.pwpb.h" // and/or RPC headers #include "my_protos/bar.raw_rpc.pb.h .. note:: Currently only raw RPC is supported by the Bazel build. **Supported Codegen** Bazel supports the following compiled proto libraries via the specified sub-targets generated by a ``pw_proto_library``. * ``${NAME}.pwpb`` - Generated C++ pw_protobuf code * ``${NAME}.raw_rpc`` - Generated C++ raw pw_rpc code (no protobuf library)