pw_protobuf/docs.rst - pigweed/pigweed - Git at Google

 .. _module-pw_protobuf:

 -----------
 pw_protobuf
 -----------
 The protobuf module provides a lightweight interface for encoding and decoding
 the Protocol Buffer wire format.

 .. note::

   The protobuf module is a work in progress. Wire format encoding and decoding
   is supported, though the APIs are not final. C++ code generation exists for
   encoding, but not decoding.

 Design
 ======
 Unlike other protobuf libraries, which typically provide in-memory data
 structures to represent protobuf messages, ``pw_protobuf`` operates directly on
 the wire format and leaves data storage to the user. This has a few benefits.
 The primary one is that it allows the library to be incredibly small, with the
 encoder and decoder each having a code size of around 1.5K and negligible RAM
 usage. Users can choose the tradeoffs most suitable for their product on top of
 this core implementation.

 ``pw_protobuf`` also provides zero-overhead C++ code generation which wraps its
 low-level wire format operations with a user-friendly API for processing
 specific protobuf messages. The code generation integrates with Pigweed's GN
 build system.

 Configuration
 =============
 ``pw_protobuf`` supports the following configuration options.

 * ``PW_PROTOBUF_CFG_MAX_VARINT_SIZE``:
   When encoding nested messages, the number of bytes to reserve for the varint
   submessage length. Nested messages are limited in size to the maximum value
   that can be varint-encoded into this reserved space.

   The values that can be set, and their corresponding maximum submessage
   lengths, are outlined below.

   +-------------------+----------------------------------------+
   | MAX_VARINT_SIZE   | Maximum submessage length              |
   +===================+========================================+
   | 1 byte            | 127                                    |
   +-------------------+----------------------------------------+
   | 2 bytes           | 16,383 or < 16KiB                      |
   +-------------------+----------------------------------------+
   | 3 bytes           | 2,097,151 or < 2048KiB                 |
   +-------------------+----------------------------------------+
   | 4 bytes (default) | 268,435,455 or < 256MiB                |
   +-------------------+----------------------------------------+
   | 5 bytes           | 4,294,967,295 or < 4GiB (max uint32_t) |
   +-------------------+----------------------------------------+

 Usage
 =====
 ``pw_protobuf`` splits wire format encoding and decoding operations. Links to
 the design and APIs of each are listed in below.

 See also :ref:`module-pw_protobuf_compiler` for details on ``pw_protobuf``'s
 build system integration.

 **pw_protobuf functionality**

 .. toctree::
   :maxdepth: 1

   encoding
   decoding

 Comparison with other protobuf libraries
 ========================================

 protobuf-lite
 ^^^^^^^^^^^^^
 protobuf-lite is the official reduced-size C++ implementation of protobuf. It
 uses a restricted subset of the protobuf library's features to minimize code
 size. However, is is still around 150K in size and requires dynamic memory
 allocation, making it unsuitable for many embedded systems.

 nanopb
 ^^^^^^
 `nanopb <https://github.com/nanopb/nanopb>`_ is a commonly used embedded
 protobuf library with very small code size and full code generation. It provides
 both encoding/decoding functionality and in-memory C structs representing
 protobuf messages.

 nanopb works well for many embedded products; however, using its generated code
 can run into RAM usage issues when processing nontrivial protobuf messages due
 to the necessity of defining a struct capable of storing all configurations of
 the message, which can grow incredibly large. In one project, Pigweed developers
 encountered an 11K struct statically allocated for a single message---over twice
 the size of the final encoded output! (This was what prompted the development of
 ``pw_protobuf``.)

 To avoid this issue, it is possible to use nanopb's low-level encode/decode
 functions to process individual message fields directly, but this loses all of
 the useful semantics of code generation. ``pw_protobuf`` is designed to optimize
 for this use case; it allows for efficient operations on the wire format with an
 intuitive user interface.

 Depending on the requirements of a project, either of these libraries could be
 suitable.
	.. _module-pw_protobuf:

	-----------
	pw_protobuf
	-----------
	The protobuf module provides a lightweight interface for encoding and decoding
	the Protocol Buffer wire format.

	.. note::

	The protobuf module is a work in progress. Wire format encoding and decoding
	is supported, though the APIs are not final. C++ code generation exists for
	encoding, but not decoding.

	Design
	======
	Unlike other protobuf libraries, which typically provide in-memory data
	structures to represent protobuf messages, ``pw_protobuf`` operates directly on
	the wire format and leaves data storage to the user. This has a few benefits.
	The primary one is that it allows the library to be incredibly small, with the
	encoder and decoder each having a code size of around 1.5K and negligible RAM
	usage. Users can choose the tradeoffs most suitable for their product on top of
	this core implementation.

	``pw_protobuf`` also provides zero-overhead C++ code generation which wraps its
	low-level wire format operations with a user-friendly API for processing
	specific protobuf messages. The code generation integrates with Pigweed's GN
	build system.

	Configuration
	=============
	``pw_protobuf`` supports the following configuration options.

	* ``PW_PROTOBUF_CFG_MAX_VARINT_SIZE``:
	When encoding nested messages, the number of bytes to reserve for the varint
	submessage length. Nested messages are limited in size to the maximum value
	that can be varint-encoded into this reserved space.

	The values that can be set, and their corresponding maximum submessage
	lengths, are outlined below.

	+-------------------+----------------------------------------+
	\| MAX_VARINT_SIZE \| Maximum submessage length \|
	+===================+========================================+
	\| 1 byte \| 127 \|
	+-------------------+----------------------------------------+
	\| 2 bytes \| 16,383 or < 16KiB \|
	+-------------------+----------------------------------------+
	\| 3 bytes \| 2,097,151 or < 2048KiB \|
	+-------------------+----------------------------------------+
	\| 4 bytes (default) \| 268,435,455 or < 256MiB \|
	+-------------------+----------------------------------------+
	\| 5 bytes \| 4,294,967,295 or < 4GiB (max uint32_t) \|
	+-------------------+----------------------------------------+

	Usage
	=====
	``pw_protobuf`` splits wire format encoding and decoding operations. Links to
	the design and APIs of each are listed in below.

	See also :ref:`module-pw_protobuf_compiler` for details on ``pw_protobuf``'s
	build system integration.

	pw_protobuf functionality

	.. toctree::
	:maxdepth: 1

	encoding
	decoding

	Comparison with other protobuf libraries
	========================================

	protobuf-lite
	^^^^^^^^^^^^^
	protobuf-lite is the official reduced-size C++ implementation of protobuf. It
	uses a restricted subset of the protobuf library's features to minimize code
	size. However, is is still around 150K in size and requires dynamic memory
	allocation, making it unsuitable for many embedded systems.

	nanopb
	^^^^^^
	`nanopb <https://github.com/nanopb/nanopb>`_ is a commonly used embedded
	protobuf library with very small code size and full code generation. It provides
	both encoding/decoding functionality and in-memory C structs representing
	protobuf messages.

	nanopb works well for many embedded products; however, using its generated code
	can run into RAM usage issues when processing nontrivial protobuf messages due
	to the necessity of defining a struct capable of storing all configurations of
	the message, which can grow incredibly large. In one project, Pigweed developers
	encountered an 11K struct statically allocated for a single message---over twice
	the size of the final encoded output! (This was what prompted the development of
	``pw_protobuf``.)

	To avoid this issue, it is possible to use nanopb's low-level encode/decode
	functions to process individual message fields directly, but this loses all of
	the useful semantics of code generation. ``pw_protobuf`` is designed to optimize
	for this use case; it allows for efficient operations on the wire format with an
	intuitive user interface.

	Depending on the requirements of a project, either of these libraries could be
	suitable.