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

 .. _module-pw_multibuf:

 ===========
 pw_multibuf
 ===========
 .. pigweed-module::
    :name: pw_multibuf

 Sending or receiving messages via RPC, transfer, or sockets often requires a
 series of intermediate buffers, each requiring their own copy of the data.
 ``pw_multibuf`` allows data to be written *once*, eliminating the memory, CPU
 and latency overhead of copying.

 -----------------
 How does it work?
 -----------------
 ``pw_multibuf`` uses several techniques to minimize copying of data:

 - **Header and Footer Reservation**: Lower-level components can reserve space
   within a buffer for headers and/or footers. This allows headers and footers
   to be added to user-provided data without moving users' data.
 - **Native Scatter/Gather and Fragmentation Support**: Buffers can refer to
   multiple separate chunks of memory. Messages can be built up from
   discontiguous allocations, and users' data can be fragmented across multiple
   packets.
 - **Divisible Memory Regions**: Incoming buffers can be divided without a copy,
   allowing incoming data to be freely demultiplexed.

 -------------------------------
 What kinds of data is this for?
 -------------------------------
 ``pw_multibuf`` is best used in code that wants to read, write, or pass along
 data which are one of the following:

 - **Large**: ``pw_multibuf`` is designed to allow breaking up data into
   multiple chunks. It also supports asynchronous allocation for when there may
   not be sufficient space for incoming data.
 - **Communications-Oriented**: Data which is being received or sent across
   sockets, various packets, or shared-memory protocols can benefit from the
   fragmentation, multiplexing, and header/footer-reservation properties of
   ``pw_multibuf``.
 - **Copy-Averse**: ``pw_multibuf`` is structured to allow users to pass around
   and mutate buffers without copying or moving data in-memory. This can be
   especially useful when working in systems that are latency-sensitive,
   need to pass large amounts of data, or when memory usage is constrained.

 -------------
 API Reference
 -------------
 Most users of ``pw_multibuf`` will start by allocating a ``MultiBuf`` using
 a ``MultiBufAllocator`` class, such as the ``SimpleAllocator``.

 ``MultiBuf`` s consist of a number of ``Chunk`` s of contiguous memory.
 These ``Chunk`` s can be grown, shrunk, modified, or extracted from the
 ``MultiBuf``. ``MultiBuf`` exposes an ``std::byte`` iterator interface as well
 as a ``Chunk`` iterator available through the ``Chunks()`` method.

 An RAII-style ``OwnedChunk`` is also provided, and manages the lifetime of
 ``Chunk`` s which are not currently stored inside of a ``MultiBuf``.

 .. doxygenclass:: pw::multibuf::Chunk
    :members:

 .. doxygenclass:: pw::multibuf::OwnedChunk
    :members:

 .. doxygenclass:: pw::multibuf::MultiBuf
    :members:

 .. doxygenclass:: pw::multibuf::MultiBufAllocator
    :members:

 .. doxygenclass:: pw::multibuf::SimpleAllocator
    :members:

 .. doxygenclass:: pw::multibuf::Stream
    :members:

 ---------------------------
 Allocator Implementors' API
 ---------------------------
 Some users will need to directly implement the ``MultiBufAllocator`` interface
 in order to provide allocation out of a particular region, provide particular
 allocation policy, fix Chunks to some size (such as MTU size - header for
 socket implementations), or specify other custom behavior.

 These users will also need to understand and implement the following APIs:

 .. doxygenclass:: pw::multibuf::ChunkRegionTracker
    :members:

 A simple implementation of a ``ChunkRegionTracker`` is provided, called
 ``HeaderChunkRegionTracker``. It stores its ``Chunk`` and region metadata in a
 ``Allocator`` allocation alongside the data. The allocation process is
 synchronous, making this class suitable for testing. The allocated region or
 ``Chunk`` must not outlive the provided allocator.

 .. doxygenclass:: pw::multibuf::HeaderChunkRegionTracker
    :members:

 Another ``ChunkRegionTracker`` specialization is the lightweight
 ``SingleChunkRegionTracker``, which does not rely on ``Allocator`` and uses the
 provided memory view to create a single chunk. This is useful when a single
 ``Chunk`` is sufficient at no extra overhead. However, the user needs to own
 the provided memory and know when a new ``Chunk`` can be requested.

 .. doxygenclass:: pw::multibuf::SingleChunkRegionTracker
    :members:
	.. _module-pw_multibuf:

	===========
	pw_multibuf
	===========
	.. pigweed-module::
	:name: pw_multibuf

	Sending or receiving messages via RPC, transfer, or sockets often requires a
	series of intermediate buffers, each requiring their own copy of the data.
	``pw_multibuf`` allows data to be written once, eliminating the memory, CPU
	and latency overhead of copying.

	-----------------
	How does it work?
	-----------------
	``pw_multibuf`` uses several techniques to minimize copying of data:

	- Header and Footer Reservation: Lower-level components can reserve space
	within a buffer for headers and/or footers. This allows headers and footers
	to be added to user-provided data without moving users' data.
	- Native Scatter/Gather and Fragmentation Support: Buffers can refer to
	multiple separate chunks of memory. Messages can be built up from
	discontiguous allocations, and users' data can be fragmented across multiple
	packets.
	- Divisible Memory Regions: Incoming buffers can be divided without a copy,
	allowing incoming data to be freely demultiplexed.

	-------------------------------
	What kinds of data is this for?
	-------------------------------
	``pw_multibuf`` is best used in code that wants to read, write, or pass along
	data which are one of the following:

	- Large: ``pw_multibuf`` is designed to allow breaking up data into
	multiple chunks. It also supports asynchronous allocation for when there may
	not be sufficient space for incoming data.
	- Communications-Oriented: Data which is being received or sent across
	sockets, various packets, or shared-memory protocols can benefit from the
	fragmentation, multiplexing, and header/footer-reservation properties of
	``pw_multibuf``.
	- Copy-Averse: ``pw_multibuf`` is structured to allow users to pass around
	and mutate buffers without copying or moving data in-memory. This can be
	especially useful when working in systems that are latency-sensitive,
	need to pass large amounts of data, or when memory usage is constrained.

	-------------
	API Reference
	-------------
	Most users of ``pw_multibuf`` will start by allocating a ``MultiBuf`` using
	a ``MultiBufAllocator`` class, such as the ``SimpleAllocator``.

	``MultiBuf`` s consist of a number of ``Chunk`` s of contiguous memory.
	These ``Chunk`` s can be grown, shrunk, modified, or extracted from the
	``MultiBuf``. ``MultiBuf`` exposes an ``std::byte`` iterator interface as well
	as a ``Chunk`` iterator available through the ``Chunks()`` method.

	An RAII-style ``OwnedChunk`` is also provided, and manages the lifetime of
	``Chunk`` s which are not currently stored inside of a ``MultiBuf``.

	.. doxygenclass:: pw::multibuf::Chunk
	:members:

	.. doxygenclass:: pw::multibuf::OwnedChunk
	:members:

	.. doxygenclass:: pw::multibuf::MultiBuf
	:members:

	.. doxygenclass:: pw::multibuf::MultiBufAllocator
	:members:

	.. doxygenclass:: pw::multibuf::SimpleAllocator
	:members:

	.. doxygenclass:: pw::multibuf::Stream
	:members:

	---------------------------
	Allocator Implementors' API
	---------------------------
	Some users will need to directly implement the ``MultiBufAllocator`` interface
	in order to provide allocation out of a particular region, provide particular
	allocation policy, fix Chunks to some size (such as MTU size - header for
	socket implementations), or specify other custom behavior.

	These users will also need to understand and implement the following APIs:

	.. doxygenclass:: pw::multibuf::ChunkRegionTracker
	:members:

	A simple implementation of a ``ChunkRegionTracker`` is provided, called
	``HeaderChunkRegionTracker``. It stores its ``Chunk`` and region metadata in a
	``Allocator`` allocation alongside the data. The allocation process is
	synchronous, making this class suitable for testing. The allocated region or
	``Chunk`` must not outlive the provided allocator.

	.. doxygenclass:: pw::multibuf::HeaderChunkRegionTracker
	:members:

	Another ``ChunkRegionTracker`` specialization is the lightweight
	``SingleChunkRegionTracker``, which does not rely on ``Allocator`` and uses the
	provided memory view to create a single chunk. This is useful when a single
	``Chunk`` is sufficient at no extra overhead. However, the user needs to own
	the provided memory and know when a new ``Chunk`` can be requested.

	.. doxygenclass:: pw::multibuf::SingleChunkRegionTracker
	:members: