| Buffer Sharing and Synchronization |
| ================================== |
| |
| The dma-buf subsystem provides the framework for sharing buffers for |
| hardware (DMA) access across multiple device drivers and subsystems, and |
| for synchronizing asynchronous hardware access. |
| |
| This is used, for example, by drm "prime" multi-GPU support, but is of |
| course not limited to GPU use cases. |
| |
| The three main components of this are: (1) dma-buf, representing a |
| sg_table and exposed to userspace as a file descriptor to allow passing |
| between devices, (2) fence, which provides a mechanism to signal when |
| one device as finished access, and (3) reservation, which manages the |
| shared or exclusive fence(s) associated with the buffer. |
| |
| Shared DMA Buffers |
| ------------------ |
| |
| This document serves as a guide to device-driver writers on what is the dma-buf |
| buffer sharing API, how to use it for exporting and using shared buffers. |
| |
| Any device driver which wishes to be a part of DMA buffer sharing, can do so as |
| either the 'exporter' of buffers, or the 'user' or 'importer' of buffers. |
| |
| Say a driver A wants to use buffers created by driver B, then we call B as the |
| exporter, and A as buffer-user/importer. |
| |
| The exporter |
| |
| - implements and manages operations in :c:type:`struct dma_buf_ops |
| <dma_buf_ops>` for the buffer, |
| - allows other users to share the buffer by using dma_buf sharing APIs, |
| - manages the details of buffer allocation, wrapped int a :c:type:`struct |
| dma_buf <dma_buf>`, |
| - decides about the actual backing storage where this allocation happens, |
| - and takes care of any migration of scatterlist - for all (shared) users of |
| this buffer. |
| |
| The buffer-user |
| |
| - is one of (many) sharing users of the buffer. |
| - doesn't need to worry about how the buffer is allocated, or where. |
| - and needs a mechanism to get access to the scatterlist that makes up this |
| buffer in memory, mapped into its own address space, so it can access the |
| same area of memory. This interface is provided by :c:type:`struct |
| dma_buf_attachment <dma_buf_attachment>`. |
| |
| Any exporters or users of the dma-buf buffer sharing framework must have a |
| 'select DMA_SHARED_BUFFER' in their respective Kconfigs. |
| |
| Userspace Interface Notes |
| ~~~~~~~~~~~~~~~~~~~~~~~~~ |
| |
| Mostly a DMA buffer file descriptor is simply an opaque object for userspace, |
| and hence the generic interface exposed is very minimal. There's a few things to |
| consider though: |
| |
| - Since kernel 3.12 the dma-buf FD supports the llseek system call, but only |
| with offset=0 and whence=SEEK_END|SEEK_SET. SEEK_SET is supported to allow |
| the usual size discover pattern size = SEEK_END(0); SEEK_SET(0). Every other |
| llseek operation will report -EINVAL. |
| |
| If llseek on dma-buf FDs isn't support the kernel will report -ESPIPE for all |
| cases. Userspace can use this to detect support for discovering the dma-buf |
| size using llseek. |
| |
| - In order to avoid fd leaks on exec, the FD_CLOEXEC flag must be set |
| on the file descriptor. This is not just a resource leak, but a |
| potential security hole. It could give the newly exec'd application |
| access to buffers, via the leaked fd, to which it should otherwise |
| not be permitted access. |
| |
| The problem with doing this via a separate fcntl() call, versus doing it |
| atomically when the fd is created, is that this is inherently racy in a |
| multi-threaded app[3]. The issue is made worse when it is library code |
| opening/creating the file descriptor, as the application may not even be |
| aware of the fd's. |
| |
| To avoid this problem, userspace must have a way to request O_CLOEXEC |
| flag be set when the dma-buf fd is created. So any API provided by |
| the exporting driver to create a dmabuf fd must provide a way to let |
| userspace control setting of O_CLOEXEC flag passed in to dma_buf_fd(). |
| |
| - Memory mapping the contents of the DMA buffer is also supported. See the |
| discussion below on `CPU Access to DMA Buffer Objects`_ for the full details. |
| |
| - The DMA buffer FD is also pollable, see `Fence Poll Support`_ below for |
| details. |
| |
| Basic Operation and Device DMA Access |
| ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
| |
| .. kernel-doc:: drivers/dma-buf/dma-buf.c |
| :doc: dma buf device access |
| |
| CPU Access to DMA Buffer Objects |
| ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
| |
| .. kernel-doc:: drivers/dma-buf/dma-buf.c |
| :doc: cpu access |
| |
| Fence Poll Support |
| ~~~~~~~~~~~~~~~~~~ |
| |
| .. kernel-doc:: drivers/dma-buf/dma-buf.c |
| :doc: fence polling |
| |
| Kernel Functions and Structures Reference |
| ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
| |
| .. kernel-doc:: drivers/dma-buf/dma-buf.c |
| :export: |
| |
| .. kernel-doc:: include/linux/dma-buf.h |
| :internal: |
| |
| Reservation Objects |
| ------------------- |
| |
| .. kernel-doc:: drivers/dma-buf/reservation.c |
| :doc: Reservation Object Overview |
| |
| .. kernel-doc:: drivers/dma-buf/reservation.c |
| :export: |
| |
| .. kernel-doc:: include/linux/reservation.h |
| :internal: |
| |
| DMA Fences |
| ---------- |
| |
| .. kernel-doc:: drivers/dma-buf/dma-fence.c |
| :export: |
| |
| .. kernel-doc:: include/linux/dma-fence.h |
| :internal: |
| |
| Seqno Hardware Fences |
| ~~~~~~~~~~~~~~~~~~~~~ |
| |
| .. kernel-doc:: include/linux/seqno-fence.h |
| :internal: |
| |
| DMA Fence Array |
| ~~~~~~~~~~~~~~~ |
| |
| .. kernel-doc:: drivers/dma-buf/dma-fence-array.c |
| :export: |
| |
| .. kernel-doc:: include/linux/dma-fence-array.h |
| :internal: |
| |
| DMA Fence uABI/Sync File |
| ~~~~~~~~~~~~~~~~~~~~~~~~ |
| |
| .. kernel-doc:: drivers/dma-buf/sync_file.c |
| :export: |
| |
| .. kernel-doc:: include/linux/sync_file.h |
| :internal: |
| |