Virtio-media is an encapsulation of the V4L2 UAPI into virtio, able to virtualize any video device supported by V4L2 Note that virtio-media does not require the use of a V4L2 device driver or of Linux on the host or guest side - V4L2 is only used as a host-guest protocol, and both sides are free to convert it from/to any model that they wish to use. Signed-off-by: Albert Esteve <aesteve@xxxxxxxxxx> --- conformance.tex | 13 +- content.tex | 1 + device-types/media/description.tex | 578 ++++++++++++++++++++++ device-types/media/device-conformance.tex | 11 + device-types/media/driver-conformance.tex | 9 + 5 files changed, 608 insertions(+), 4 deletions(-) create mode 100644 device-types/media/description.tex create mode 100644 device-types/media/device-conformance.tex create mode 100644 device-types/media/driver-conformance.tex diff --git a/conformance.tex b/conformance.tex index dc00e84..c369da1 100644 --- a/conformance.tex +++ b/conformance.tex @@ -32,8 +32,10 @@ \section{Conformance Targets}\label{sec:Conformance / Conformance Targets} \ref{sec:Conformance / Driver Conformance / Memory Driver Conformance}, \ref{sec:Conformance / Driver Conformance / I2C Adapter Driver Conformance}, \ref{sec:Conformance / Driver Conformance / SCMI Driver Conformance}, -\ref{sec:Conformance / Driver Conformance / GPIO Driver Conformance} or -\ref{sec:Conformance / Driver Conformance / PMEM Driver Conformance}. +\ref{sec:Conformance / Driver Conformance / GPIO Driver Conformance}, +\ref{sec:Conformance / Driver Conformance / PMEM Driver Conformance} or +\ref{sec:Conformance / Driver Conformance / Media Driver Conformance}. + \item Clause \ref{sec:Conformance / Legacy Interface: Transitional Device and Transitional Driver Conformance}. \end{itemize} @@ -59,8 +61,9 @@ \section{Conformance Targets}\label{sec:Conformance / Conformance Targets} \ref{sec:Conformance / Device Conformance / Memory Device Conformance}, \ref{sec:Conformance / Device Conformance / I2C Adapter Device Conformance}, \ref{sec:Conformance / Device Conformance / SCMI Device Conformance}, -\ref{sec:Conformance / Device Conformance / GPIO Device Conformance} or -\ref{sec:Conformance / Device Conformance / PMEM Device Conformance}. +\ref{sec:Conformance / Device Conformance / GPIO Device Conformance}, +\ref{sec:Conformance / Device Conformance / PMEM Device Conformance} or +\ref{sec:Conformance / Device Conformance / Media Device Conformance}. \item Clause \ref{sec:Conformance / Legacy Interface: Transitional Device and Transitional Driver Conformance}. \end{itemize} @@ -152,6 +155,7 @@ \section{Conformance Targets}\label{sec:Conformance / Conformance Targets} \input{device-types/scmi/driver-conformance.tex} \input{device-types/gpio/driver-conformance.tex} \input{device-types/pmem/driver-conformance.tex} +\input{device-types/media/driver-conformance.tex} \conformance{\section}{Device Conformance}\label{sec:Conformance / Device Conformance} @@ -238,6 +242,7 @@ \section{Conformance Targets}\label{sec:Conformance / Conformance Targets} \input{device-types/scmi/device-conformance.tex} \input{device-types/gpio/device-conformance.tex} \input{device-types/pmem/device-conformance.tex} +\input{device-types/media/device-conformance.tex} \conformance{\section}{Legacy Interface: Transitional Device and Transitional Driver Conformance}\label{sec:Conformance / Legacy Interface: Transitional Device and Transitional Driver Conformance} A conformant implementation MUST be either transitional or diff --git a/content.tex b/content.tex index 0a62dce..59925ae 100644 --- a/content.tex +++ b/content.tex @@ -767,6 +767,7 @@ \chapter{Device Types}\label{sec:Device Types} \input{device-types/scmi/description.tex} \input{device-types/gpio/description.tex} \input{device-types/pmem/description.tex} +\input{device-types/media/description.tex} \chapter{Reserved Feature Bits}\label{sec:Reserved Feature Bits} diff --git a/device-types/media/description.tex b/device-types/media/description.tex new file mode 100644 index 0000000..887eacf --- /dev/null +++ b/device-types/media/description.tex @@ -0,0 +1,578 @@ +\section{Media Device}\label{sec:Device Types / Media Device} + +The virtio media device follow the same model (and structures) as V4L2. It +can be used to virtualize cameras, codec devices, or any other device +supported by V4L2. The device assumes 64-bit little-endian V4L2 structures +are exchanged. The complete definition of V4L2 structures and ioctls can +be found under the +\href{https://www.kernel.org/doc/html/latest/userspace-api/media/index.html}{V4L2 UAPI documentation}. + +V4L2 is a UAPI that allows a less privileged entity (user-space) to use video +hardware exposed by a more privileged entity (the kernel). Virtio-media is an +encapsulation of this API into virtio, turning it into a virtualization API +for all classes of video devices supported by V4L2, where the device plays the +role of the kernel and the driver the role of user-space. + +The device is therefore responsible for presenting a virtual device that behaves +like an actual V4L2 device, which the driver can control. + +Note that virtio-media does not require the use of a V4L2 device driver or of +Linux on any side - V4L2 is only used as a transport protocol, +and both sides are free to convert it from/to any model that they wish to use. + +This section relies on definitions from +\href{https://www.kernel.org/doc/html/latest/userspace-api/media/index.html}{V4L2 UAPI documentation}. + +\subsection{Device ID}\label{sec:Device Types / Media Device / Device ID} + +42 + +\subsection{Virtqueues}\label{sec:Device Types / Media Device / Virtqueues} + +\begin{description} +\item[0] commandq - used for driver commands and device responses to these +commands. +\item[1] eventq - used for events sent by the device to the driver. +\end{description} + +\devicenormative{\subsubsection}{Virtqueues}{Device Types / Media Device / Virtqueues} + +The device MUST return the descriptor chains it receives on the commandq as +soon as possible, and must never hold them for indefinite periods of time. + +\drivernormative{\subsubsection}{Virtqueues}{Device Types / Media Device / Virtqueues} + +The driver MUST re-queue the descriptor chains returned by the device on the +eventq as soon as possible, and must never hold them for indefinite periods +of time. + +\subsection{Feature Bits}\label{sec:Device Types / Media Device / Feature Bits} + +None + +\subsection{Device Configuration Layout}\label{sec:Device Types / Media Device / Device Configuration Layout} + +The video device configuration space uses the following layout: + +\begin{lstlisting} +struct virtio_media_config { + le32 device_caps; + le32 device_type; + u8 card[32]; +}; +\end{lstlisting} + +\begin{description} +\item[\field{device_caps}] (driver-read-only) flags representing the device +capabilities as used in +\href{https://www.kernel.org/doc/html/v4.9/media/uapi/v4l/vidioc-querycap.html#c.v4l2_capability}{struct v4l2_capabilities}. +Corresponds with the \field{device_caps} field in the \textit{struct video_device}. +\item[\field{device_type}] (driver-read-only) informs the driver of the type +of the video device. Corresponds with the \field{vfl_devnode_type} field of the device. +\item[\field{card}] (driver-read-only) name of the device, a NUL-terminated +UTF-8 string. Corresponds with the \field{card} field of the \textit{struct v4l2_capability}. +If all the characters of the field are used, it does not need to be NUL-terminated. +\end{description} + +\subsection{Device Initialization} + +\begin{enumerate} +\item The driver reads the \field{device_caps} and \field{device_type} fields +from the configuration layout to identify the device. +\item The driver sets up the \field{commandq} and \field{eventq}. +\item The driver may open a session to use the device and send V4L2 ioctls in +order to receive more information about the device, such as supported +formats or controls. +\end{enumerate} + +\subsection{Device Operation}\label{sec:Device Types / Media Device / Device Operation} + +Commands are queued on the command queue by the driver for the device to +process. The errors returned by each command are standard +\href{https://www.kernel.org/doc/html/latest/userspace-api/media/gen-errors.html}{Linux kernel error codes}. +For instance, a command that contains invalid options will return \textit{EINVAL}. + +Events are sent on the event queue by the device for the driver to handle. + +\subsubsection{Command Virtqueue} + +\paragraph{Device Operation: Command headers} + +\begin{lstlisting} +#define VIRTIO_MEDIA_CMD_OPEN 1 +#define VIRTIO_MEDIA_CMD_CLOSE 2 +#define VIRTIO_MEDIA_CMD_IOCTL 3 +#define VIRTIO_MEDIA_CMD_MMAP 4 +#define VIRTIO_MEDIA_CMD_MUNMAP 5 + +/* Header for all virtio commands from the driver to the device on the commandq. */ +struct virtio_media_cmd_header { + u32 cmd; + u32 __padding; +}; + +/* Header for all virtio responses from the device to the driver on the commandq. */ +struct virtio_media_resp_header { + u32 status; + u32 __padding; +}; +\end{lstlisting} + +A command consists of a command header \textit{virtio_media_cmd_header} +containing the following device-readable field: + +\begin{description} +\item[\field{cmd}] specifies a device request type (VIRTIO_MEDIA_CMD_*). +\end{description} + +A response consists of a response header \textit{virtio_media_resp_header} +containing the following device-writable field: + +\begin{description} +\item[\field{status}] indicates a device request status. +\end{description} + +The status field can take 0 if the command was successful, or one of the +standard Linux error codes if it was not. + +\drivernormative{\paragraph}{Device Operation: Command Virtqueue: Sessions}{Device Types / Media Device / Device Operation / Command Virtqueue} + +Sessions are how the device is multiplexed, allowing several distinct works to +take place simultaneously. The driver needs to open a session before it can +perform any useful operation on the device. + +\paragraph{Device Operation: Open device} + +\textbf{VIRTIO_MEDIA_CMD_OPEN} Command for creating a new session. + +This is the equivalent of calling \textit{open} on a V4L2 device node. +The driver uses \textit{virtio_media_cmd_open} to send an open request. + +\begin{lstlisting} +struct virtio_media_cmd_open { + struct virtio_media_cmd_header hdr; +}; +\end{lstlisting} + +The device responds to \textit{VIRTIO_MEDIA_CMD_OPEN} with \textit{virtio_media_resp_open}. + +\begin{lstlisting} +struct virtio_media_resp_open { + struct virtio_media_resp_header hdr; + u32 session_id; + u32 __padding; +}; +\end{lstlisting} + +\begin{description} +\item[\field{session_id}] specifies an identifier for the current session. The +identifier can be used to perform other commands on the session, notably ioctls. +\end{description} + +\devicenormative{\subparagraph}{Device Operation: Open device}{Device Types / Media Device / Device Operation / Open device} + +Upon success, the device MUST set a \field{session_id} in \textit{virtio_media_resp_open} +to an integer that is NOT used by any other open session. + +\paragraph{Device Operation: Close device} + +\textbf{VIRTIO_MEDIA_CMD_CLOSE} Command for closing an active session. + +This is the equivalent of calling \textit{close} on a previously opened V4L2 +device node. All resources associated with this session will be freed. + +This command does not require a response from the device. + +\begin{lstlisting} +struct virtio_media_cmd_close { + struct virtio_media_cmd_header hdr; + u32 session_id; + u32 __padding; +}; +\end{lstlisting} + +\begin{description} +\item[\field{session_id}] specifies an identifier for the session to close. +\end{description} + +\drivernormative{\subparagraph}{Device Operation: Close device}{Device Types / Media Device / Device Operation / Close device} + +The session ID SHALL NOT be used again after queueing this command. + +\paragraph{Device Operation: V4L2 ioctls} + +\textbf{VIRTIO_MEDIA_CMD_IOCTL} Command for executing an ioctl on an open +session. + +This command asks the device to run one of the `VIDIOC_*` ioctls on the active +session. + +\begin{lstlisting} +struct virtio_media_cmd_ioctl { + struct virtio_media_cmd_header hdr; + u32 session_id; + u32 code; + /* Followed by the relevant ioctl payload as defined in the macro */ +}; +\end{lstlisting} + +\begin{description} +\item[\field{session_id}] specifies an identifier of thesession to run the ioctl on. +\item[\field{code}] specifies the code of the \field{VIDIOC_*} ioctl to run. +\end{description} + +The code is extracted from the +\href{https://www.kernel.org/doc/html/latest/userspace-api/media/v4l/videodev.html}{videodev2.h}, +header file. The file defines the ioctl's codes, type of payload, and +direction. The code consists of the second argument of the \field{_IO*} macro. + +For example, the \textit{VIDIOC_G_FMT} is defined as follows: + +\begin{lstlisting} +#define VIDIOC_G_FMT _IOWR('V', 4, struct v4l2_format) +\end{lstlisting} + +This means that its ioctl code is \textit{4}, that its payload is a +\textit{struct v4l2_format}, and that its direction is \textit{WR} (i.e., the +payload is written by both the driver and the device). +See Section \ref{sec:Device Types / Media Device / V4L2 ioctls / Ioctls payload} +for more information about the direction of ioctls. + +The payload layout is always a 64-bit representation of the corresponding +V4L2 structure. + +The device responds to \textit{VIRTIO_MEDIA_CMD_IOCTL} with \textit{virtio_media_resp_ioctl}. + +\begin{lstlisting} +struct virtio_media_resp_ioctl { + struct virtio_media_resp_header hdr; + /* Followed by the ioctl payload as defined in the macro */ +}; +\end{lstlisting} + +\subparagraph{Ioctls payload}\label{sec:Device Types / Media Device / V4L2 ioctls / Ioctls payload} + +Each ioctl has a payload, which is defined by the third argument of the +\field{_IO*} macro defining it. + +The payload of an ioctl in the descriptor chain follows the command structure, +the reponse structure, or both depending on the direction: + +\begin{itemize} +\item \textbf{_IOR} is read-only for the driver, meaning the payload +follows the response in the device-writable section of the descriptor chain. +\item \textbf{_IOW} is read-only for the device, meaning the payload +follows the command in the driver-writable section of the descriptor chain. +\item \textbf{_IOWR} is writable by both the device and driver, +meaning the payload must follow both the command in the driver-writable section +of the descriptor chain, and the response in the device-writable section. +\end{itemize} + +A common optimization for \textit{WR} ioctls is to provide the payload using +descriptors that both point to the same buffer. This mimics the behavior of +V4L2 ioctls where the data is only passed once and used as both input and +output by the kernel. + +\devicenormative{\subparagraph}{Device Operation: V4L2 ioctls}{Device Types / Media Device / Device Operation / V4L2 ioctls} + +In case of success of a device-writable ioctl, the device MUST always write the +payload in the device-writable part of the descriptor chain. + +In case of failure of a device-writable ioctl, the device is free to write the +payload in the device-writable part of the descriptor chain or not. Some errors +may still result in the payload being updated, and in this case the device is +expected to write the updated payload. If the device has not written the +payload after an error, the driver MUST assume that the payload has not been +modified. + +\subparagraph{Handling of pointers in ioctl payload} + +A few structures used as ioctl payloads contain pointers to further +data needed for the ioctl. There are notably: + +\begin{itemize} +\item The \field{planes} pointer of +\href{https://www.kernel.org/doc/html/latest/userspace-api/media/v4l/buffer.html#struct-v4l2-buffer}{struct v4l2_buffer}, +which size is determined by the length member. +\item The \field{controls} pointer of \textit{struct v4l2_ext_controls}, which +size is determined by the count member. +\end{itemize} + +If the size of the pointed area is determined to be non-zero, then the main +payload is immediately followed by the pointed data in their order of +appearance in the structure, and the pointer value itself is ignored by the +device, which must also return the value initially passed by the driver. + +\subparagraph{Handling of pointers to userspace memory} +\label{sec:Device Types / Media Device / V4L2 ioctls / Userspace memory} + +A few pointers are special in that they point to userspace memory in the +original V4L2 specification. They are: + +\begin{itemize} +\item The \field{m.userptr} member of \textit{struct v4l2_buffer} and +\href{https://www.kernel.org/doc/html/latest/userspace-api/media/v4l/buffer.html#struct-v4l2-plane}{struct v4l2_plane} +(technically an unsigned long, but designated a userspace address). +\item The \field{ptr} member of \textit{struct v4l2_ext_ctrl}. +\end{itemize} + +These pointers can cover large areas of scattered memory, which has the +potential to require more descriptors than the virtio queue can provide. For +these particular pointers only, a list of \textit{struct virtio_media_sg_entry} +that covers the needed amount of memory for the pointer is used instead of +using descriptors to map the pointed memory directly. + +\begin{lstlisting} +struct virtio_media_sg_entry { + u64 start; + u32 len; + u32 __padding; +}; +\end{lstlisting} + +For each such pointer to read, the device reads as many SG entries as needed +to cover the length of the pointed buffer, as described by its parent +structure (\field{length} member of \textit{struct v4l2_buffer} or +\textit{struct v4l2_plane} for buffer memory, and \field{size} member of +\textit{struct v4l2_ext_control} for control data). + +Since the device never needs to modify the list of SG entries, it is only +provided by the driver in the device-readable section of the descriptor chain, +and not repeated in the device-writable section, even for WR ioctls. + +\subparagraph{Unsupported ioctls} + +A few ioctls are replaced by other, more suitable mechanisms. + +\begin{itemize} +\item \textit{VIDIOC_QUERYCAP} is replaced by reading the configuration area +(see \ref{sec:Device Types / Media Device / Device Configuration Layout}). +\item \textit{VIDIOC_DQBUF} is replaced by a dedicated event +(see \ref{sec:Device Types / Media Device / Device Operation / Dequeue buffer}). +\item \textit{VIDIOC_DQEVENT} is replaced by a dedicated event +(see \ref{sec:Device Types / Media Device / Device Operation / Emit an event}). +\item \textit{VIDIOC_G_JPEGCOMP} and \textit{VIDIOC_S_JPEGCOMP} are deprecated +and replaced by the controls of the JPEG class. +\item \textit{VIDIOC_LOG_STATUS} is a driver-only operation and shall not be +implemented by the device. +\end{itemize} + +\devicenormative{\subparagraph}{Device Operation: Unsupported ioctls}{Device Types / Media Device / Device Operation / Unsupported ioctls} + +If being requested an unsupported ioctl, the device MUST return the same +error response as it would for an unknown ioctl, i.e. \textit{ENOTTY}. + +\paragraph{Device Operation: Mapping a MMAP buffer} + +\textbf{VIRTIO_MEDIA_CMD_MMAP} Command for mapping a MMAP buffer into the +driver's address space. + +Shared memory region ID 0 is used to map MMAP buffers with +the \textit{VIRTIO_MEDIA_CMD_MMAP} command. + +\begin{lstlisting} +#define VIRTIO_MEDIA_MMAP_FLAG_RW (1 << 0) + +struct virtio_media_cmd_mmap { + struct virtio_media_cmd_header hdr; + u32 session_id; + u32 flags; + u64 offset; +}; +\end{lstlisting} + +\begin{description} +\item[\field{flags}] is the set of flags for the mapping. \field{VIRTIO_MEDIA_MMAP_FLAG_RW} +can be set if a read-write mapping is desired. Without this flag the mapping +will be read-only. +\item[\field{offset}] corresponds to the \field{mem_offset} field of the +\textit{union v4l2_plane} for the plane to map. This field can be obtained +using the \textit{VIDIOC_QUERYBUF} ioctl. +\end{description} + +The device responds to \textit{VIRTIO_MEDIA_CMD_MMAP} with \textit{virtio_media_resp_mmap}. + +\begin{lstlisting} +struct virtio_media_resp_mmap { + struct virtio_media_resp_header hdr; + u64 offset; + u64 len; +}; +\end{lstlisting} + +\begin{description} +\item[\field{offset}] offset into SHM region ID 0 of the start of the mapping. +\item[\field{len}] length of the mapping as indicated by the \textit{struct v4l2_plane} +the buffer belongs to. +\end{description} + +\paragraph{Device Operation: Unmapping a MMAP buffer} + +\textbf{VIRTIO_MEDIA_CMD_MUNMAP} Unmap a MMAP buffer previously mapped using \field{VIRTIO_MEDIA_CMD_MMAP}. + +\begin{lstlisting} +struct virtio_media_cmd_munmap { + struct virtio_media_cmd_header hdr; + u64 offset; +}; +\end{lstlisting} + +\begin{description} +\item[\field{offset}] offset into SHM region ID 0 previously returned by +\textit{VIRTIO_MEDIA_CMD_MMAP} at which the buffer has been previously mapped. +\end{description} + +The device responds to \textit{VIRTIO_MEDIA_CMD_MUNMAP} with \textit{virtio_media_resp_munmap}. + +\begin{lstlisting} +struct virtio_media_resp_munmap { + struct virtio_media_resp_header hdr; +}; +\end{lstlisting} + +\devicenormative{\subparagraph}{Device Operation: Unmapping a MMAP buffer}{Device Types / Media Device / Device Operation / Unmapping a MMAP buffer} + +The device MUST keep mappings performed using \textit{VIRTIO_MEDIA_CMD_MMAP} +valid until \textit{VIRTIO_MEDIA_CMD_MUNMAP} is called, even if the buffers or +session they belong to are released or closed by the driver. + +\paragraph{Device Operation: Memory Types} + +The semantics of the three V4L2 memory types (\textit{MMAP}, \textit{USERPTR} +and \textit{DMABUF}) can easily be mapped to both driver and device context. + +\subparagraph{MMAP} + +In virtio-media, \textit{MMAP} buffers are provisioned by the device, just like +they are by the kernel in regular V4L2. Similarly to how userspace can map a +\textit{MMAP} buffer into its address space using mmap and munmap, the +virtio-media driver can map device buffers into the driver space by queueing the +\textit{struct virtio_media_cmd_mmap} and \textit{struct virtio_media_cmd_munmap} +commands to the commandq. + +\subparagraph{USERPTR} + +In virtio-media, \textit{USERPTR} buffers are provisioned by the driver, just +like they are by userspace in regular V4L2. Instances of \textit{struct v4l2_buffer} +and \textit{struct v4l2_plane} of this type are followed by a list of +\textit{struct virtio_media_sg_entry}. For more information, see +\ref{sec:Device Types / Media Device / V4L2 ioctls / Userspace memory} + +The device must not alter the pointer values provided by the driver, i.e. +\field{the m.userptr} member of \textit{struct v4l2_buffer} and +\textit{struct v4l2_plane} must be returned to the driver with the same value +as it was provided. + +\subparagraph{DMABUF} + +In virtio-media, \textit{DMABUF} buffers are provisioned by a virtio object, +just like they are by a \textit{DMABUF} in regular V4L2. Virtio objects are +16-bytes UUIDs and do not fit in the placeholders for file descriptors, so +they follow their embedding data structure as needed and the device must +leave the V4L2 structure placeholder unchanged. + +Contrary to \textit{USERPTR} buffers, virtio objects UUIDs need to be added in +both the device-readable and device-writable section of the descriptor chain. + +Device-allocated buffers with the \textit{V4L2_MEMORY_MMAP} memory type can also +be exported as virtio objects for use with another virtio device using the +\textit{VIDIOC_EXPBUF} ioctl. The fd placefolder of \textit{v4l2_exportbuffer} +means that space for the UUID needs to be reserved right after that structure + +\subsubsection{Event Virtqueue} + +Events are a way for the device to inform the driver about asynchronous events +that it should know about. In virtio-media, they are used as a replacement for +the \textit{VIDIOC_DQBUF} and \textit{VIDIOC_DQEVENT} ioctls and the polling +mechanism, which would be impractical to implement on top of virtio. + +\paragraph{Device Operation: Event header} + +\begin{lstlisting} +#define VIRTIO_MEDIA_EVT_ERROR 0 +#define VIRTIO_MEDIA_EVT_DQBUF 1 +#define VIRTIO_MEDIA_EVT_EVENT 2 + +/* Header for events queued by the device for the driver on the eventq. */ +struct virtio_media_event_header { + u32 event; + u32 session_id; +}; +\end{lstlisting} + +\begin{description} +\item[\field{event}] one of \field{VIRTIO_MEDIA_EVT_*}. +\item[\field{session_id}] ID of the session the event applies to. +\end{description} + +\paragraph{Device Operation: Device-side error} + +\textbf{VIRTIO_MEDIA_EVT_ERROR} Upon receiving this event, the session +mentioned in the header is considered corrupted and automatically closed by +the device. + +\begin{lstlisting} +struct virtio_media_event_error { + struct virtio_media_event_header hdr; + u32 errno; + u32 __padding; +}; +\end{lstlisting} + +\begin{description} +\item[\field{errno}] error code describing the kind of error that occurred. +\end{description} + +\paragraph{Device Operation: Dequeue buffer} +\label{sec:Device Types / Media Device / Device Operation / Dequeue buffer} + +\textbf{VIRTIO_MEDIA_EVT_DQBUF} Signals that a buffer is not being used anymore +by the device and is returned to the driver. + +A \textit{struct virtio_media_event_dqbuf} event is queued on the eventq by the +device every time a buffer previously queued using the \textit{VIDIOC_QBUF} +ioctl is done being processed and can be used by the driver again. This is like +an implicit \textit{VIDIOC_DQBUF} ioctl. + +\begin{lstlisting} +struct virtio_media_event_dqbuf { + struct virtio_media_event_header hdr; + struct v4l2_buffer buffer; + struct v4l2_plane planes[VIDEO_MAX_PLANES]; +}; +\end{lstlisting} + +\begin{description} +\item[\field{buffer}] \textit{struct v4l2_buffer} describing the buffer that has been dequeued. +\item[\field{planes}] array of \textit{struct v4l2_plane} containing the plane information for multi-planar buffers. +\end{description} + +Pointer values in the \textit{struct v4l2_buffer} and \textit{struct v4l2_plane} +are meaningless and must be ignored by the driver. It is recommended that the +device sets them to NULL in order to avoid leaking potential device addresses. + +Note that in the case of a \field{USERPTR} buffer, the \textit{struct v4l2_buffer} +used as event payload is not followed by the buffer memory: since that memory +is the same that the driver submitted with the \textit{VIDIOC_QBUF}, it would +be redundant to have it here. + +\paragraph{Device Operation: Emit an event} +\label{sec:Device Types / Media Device / Device Operation / Emit an event} + +\textbf{VIRTIO_MEDIA_EVT_EVENT} Signals that a V4L2 event has been emitted for a session. + +A \textit{struct virtio_media_event_event} event is queued on the eventq by the +device every time an event the driver previously subscribed to using the +\textit{VIDIOC_SUBSCRIBE_EVENT} ioctl has been signaled. This is like an +implicit \textit{VIDIOC_DQEVENT} ioctl. + +\begin{lstlisting} +struct virtio_media_event_event { + struct virtio_media_event_header hdr; + struct v4l2_event event; +}; +\end{lstlisting} + +\begin{description} +\item[\field{event}] \textit{struct v4l2_event} describing the event that occurred. +\end{description} diff --git a/device-types/media/device-conformance.tex b/device-types/media/device-conformance.tex new file mode 100644 index 0000000..3338822 --- /dev/null +++ b/device-types/media/device-conformance.tex @@ -0,0 +1,11 @@ +\conformance{\subsection}{Media Device Conformance}\label{sec:Conformance / Device Conformance / Media Device Conformance} + +A Media device MUST conform to the following normative statements: + +\begin{itemize} +\item \ref{devicenormative:Device Types / Media Device / Virtqueues} +\item \ref{devicenormative:Device Types / Media Device / Device Operation / Open device} +\item \ref{devicenormative:Device Types / Media Device / Device Operation / V4L2 ioctls} +\item \ref{devicenormative:Device Types / Media Device / Device Operation / Unsupported ioctls} +\item \ref{devicenormative:Device Types / Media Device / Device Operation / Unmapping a MMAP buffer} +\end{itemize} \ No newline at end of file diff --git a/device-types/media/driver-conformance.tex b/device-types/media/driver-conformance.tex new file mode 100644 index 0000000..058b812 --- /dev/null +++ b/device-types/media/driver-conformance.tex @@ -0,0 +1,9 @@ +\conformance{\subsection}{Media Device Conformance}\label{sec:Conformance / Driver Conformance / Media Driver Conformance} + +A Media device MUST conform to the following normative statements: + +\begin{itemize} +\item \ref{drivernormative:Device Types / Media Device / Virtqueues} +\item \ref{drivernormative:Device Types / Media Device / Device Operation / Command Virtqueue} +\item \ref{drivernormative:Device Types / Media Device / Device Operation / Close device} +\end{itemize} \ No newline at end of file -- 2.44.0