[RFC 0/6] Common Display Framework-T

[Vikas Sajjan]

Hi Laurent,

On Wed, Dec 19, 2012 at 6:51 PM, Laurent Pinchart
<laurent.pinchart at ideasonboard.com> wrote:
> Hi Tomi,
>
> On Friday 14 December 2012 16:27:26 Tomi Valkeinen wrote:
>> Hi,
>>
>> I have been testing Common Display Framework on OMAP, and making changes
>> that I've discussed in the posts I've sent in reply to the CDF series from
>> Laurent. While my CDF code is rather hacky and not at all ready, I wanted
>> to post the code for comments and also as a reference code to my posts.
>>
>> So here is CDF-T (Tomi-edition =).
>
> We've discussed your approach extensively face-to-face today so I won't review
> the patches in detail, but I will instead summarize our discussion to make
> sure we understood each other (and let other developers jump in).
>
> For the purpose of this discussion the term "display controller driver" (or
> just "display controller") refer to both the low-level driver layer that
> communicates directly with the display controller hardware, and to the higher-
> level driver layer that implements and exposes the userspace API (FBDEV, KMS
> and/or V4L). Those layers can be implemented in multiple kernel modules (such
> as in the OMAP DSS case, with omapdss for the low-level layer and omapdrm,
> omapfb and omapvout for the API-level layer) or a single kernel module.
>
> Control model
> -------------
>
> The figure at http://www.ideasonboard.org/media/cdf/cdf-panel-control-
> model.png shows the CDF control model.
>
> The panel object depicted on the figure doesn't need to be a panel in the
> stricter sense but could be any chain of off-SoC (both on-board or off-board)
> display entities. It however helps thinking about it as a panel and doesn't
> hurt the model.
>
> The panel is controlled through abstract control requests. Those requests are
> used to retrieve panel information (such as the physical size, the supported
> video modes, EDID information, ...), set the panel configuration (such as the
> active video timings) or control the panel operation state (enabling/disabling
> the panel, controlling panel blanking and power management, ...). They are
> exposed by the panel using function pointers, and called by other kernel
> components in response to userspace requests (through the FBDEV, KMS or V4L2
> APIs) or in-kernel events (for instance hotplug notifications).
>
> In response to the control requests the panel driver will communicate with the
> panel through the panel control bus (I2C, SPI, DBI, DSI, GPIO, ..., not shown
> on the figure) and will control the video stream it receives on its input.
>
> The panel is connected at the hardware level to a video source (shown as a
> green hashed rectangle) that provides it with a video stream. The video stream
> flows from the video source to the panel and is directly controlled by its
> source, as shown by the green arrow from the display controller to the video
> stream. The video source exposes stream control operations as function
> pointers that are used by the panel to control the video stream, as shown by
> the green arrow from the panel to the video source.
>
> The figure at http://www.ideasonboard.org/media/cdf/cdf-panel-control-
> model-2.png shows the call flow across entities when the panel is a pipeline
> made of more than a single entity. In this case the SoC (on the left of the
> dashed line) outputs a video stream on a DSI bus connected to a DSI to LVDS
> transmitter. The output of the DSI to LVDS transmitter is connected to an LVDS
> panel (or, more accurately, an LVDS panel module made of an LVDS panel
> controller and a panel).
>
> The transmitter and panel module are seen by the display controller and
> userspace API implementations as a single entity that exposes control request
> operations and controls its input video stream. When a control request is
> performed (outermost green arrow) the DSI to LVDS transmitter will propagate
> it to the panel, possibly mangling the input parameters or the response. For
> panel operation state control requests the last entity in the pipeline will
> likely want to control the video stream it receives on its input. The video
> stream control calls will be propagated from right to left as shown by the red
> arrows.
>
> Every entity in the call stack can communicate with its hardware device
> through the corresponding control bus, and/or control the video stream it
> receives on its input.
>
> This model allows filtering out modes and timings supported by the panel but
> unsupported by the transmitter and mangling the modes and timings according to
> the transmitter limitations. It has no complexity drawback for simple devices,
> as the corresponding drivers can just forward the calls directly. Similar use
> cases could exist for other control operations than mode and information
> retrieval.
>
> Discovery
> ---------
>
> Before being able to issue control requests, panel devices need to be
> discovered and associated with the connected display controller(s).
>
> Panels and display controllers are cross-dependent. There is no way around
> that, as the display controller needs a reference to the panel to call control
> requests in response to userspace API, and the panel needs a reference to the
> display controller to call video stream control functions (in addition to
> requiring generic resources such as clocks, GPIOs or even regulators that
> could be provided by the display controller).
>
> As we can't probe the display controller and the panel together, a probe order
> needs to be defined. The decision was to consider video sources as resources
> and defer panel probing until all required resources (video stream source,
> clocks, GPIOs, regulators and more) are available. Display controller probing
> must succeed without the panel being available. This mimicks the hotpluggable
> monitor model (VGA, HDMI, DP) that doesn't prevent display controllers from
> being successfully probed without a connected monitor.
>
> Our design goal is to handle panel discovery in a similar (if not identical)
> way as HDMI/DP hotplug in order to implement a single display discovery method
> in display controller drivers. This might not be achievable, in which case
> we'll reconsider the design requirement.
>
> When the display controller driver probes the device it will register the
> video source(s) at the output of the display controller with the CDF core.
> Those sources will be identified by the display controller dev_name() and a
> source integer index. A new structure, likely called display_entity_port, will
> be used to represent a source or sink video port on a display entity.
>
> Panel drivers will handle video sources as resources. They will retrieve at
> probe time the video source the panel is connected to using a phandle or a
> source name (depending on whether the platform uses DT). If the source isn't
> available the probe function will return -EPROBE_DEFER.
>
> In addition to the video stream control operations mentioned above, ports will
> also expose a connect/disconnect operation use to notify them of
> connection/disconnection events. After retrieving the connected video source
> panel drivers call the connect/disconnect operation on the video source to
> notify it that the panel is available.
>
> When the panel is a pipeline made of more than a single entity, entities are
> probed in video source to video sink order. Out-of-order probe will result in
> probe deferral as explained above due to the video source not being available,
> resulting in the source to sink probe order. Entities should not call the
> connect operation of their video source at probe time in that case, but only
> when their own connect operation for the video source(s) they provide to the
> next entity is called by the next entity. Connect operations will thus be
> called in sink to source order starting at the entity at the end of the
> pipeline and going all the way back to the display controller.
>
> This notification system is a hotplug mechanism that replaces the display
> entity notifier system from my previous RFC. Alan Cox rightly objected to the
> notification system, arguing that such system-wide notifications were used by
> FBDEV and very subject to abuse. I agree with his argument, this new mechanism
> should result in a cleaner implementation as video sources will only be
> notified of connect/disconnect events for the entity they're connected to.
>
> DBI/DSI busses
> --------------
>
> My RFC introduced a DBI bus using the Linux device and bus model. Its purpose
> was multifold:
>
> - Support (un)registration, matching and binding of devices and drivers.
>
> - Provide power management (suspend/resume) services through the standard
> Linux PM bus/device model, to make sure that DBI devices will be
> suspended/resumed after/before their DBI bus controller.
>
> - Provide bus services to access the connected devices. For DBI that took the
> form of command read and data read/write functions.
>
> A DSI bus implementation using the same model was also planned.
>
> Tomi's patches removed the DBI bus and replaced DBI devices with platform
> devices, moving the bus services implementation to the video source. DBI and
> DSI busses are always either pure video or video + control busses (although
> controlling a DPI panel through DSI is conceivable, nobody in his right mind,
> not even a hardware engineer, would likely implement that), so there will
> always be a video source to provide the DBI/DSI control operations.
>
> (Un)registration, matching and binding of devices and drivers is provided by
> the platform device bus. Bus services to access connected devices are provided
> by the video source, wrapper functions will be used to handle serialization
> and locking, and possibly to offer higher level services (such as DCS for
> instance).
>
> One drawback of using the platform bus is that PM relationships between the
> bus master and slaves will not be taken into account during suspend/resume.
> However, a similar issue exists for DPI panels, and PM relationships at the
> video bus level for DBI and DSI are not handled by the DBI/DSI busses either.
> As we need a generic solution to handle those (likely through early suspend
> and late resume), the same solution can be used to handle DBI and DSI control
> bus PM relationships without requiring a Linux DBI or DSI bus.
>
> Even though I still like the idea of DBI and DSI busses, I agree with Tomi
> that they're not strictly needed and I will drop them.
>
> Entity model
> ------------
>
> Tomi's proposal split the display entities into video sources (struct
> video_source) and display entities (struct display_entity). To make generic
> pipeline operations easier, we agreed to merge the video source and the
> display entity back. struct display_entity thus models a display entity that
> has any number of sink and/or source ports, modeled as struct
> display_entity_port instances.
>
Looking at Tomi's patchset, he has considered panel as "display entity"
and  MIPI DSI as "video source entity". So if we are planning to merge it back
how should we treat panel and MIPI DSI. i mean should we consider both
panel  and MIPI DSI has 2 different display entities.
i.e, during the probe of each of these drivers, should we register a
display entity with CDF.

> Video stream operations will be exposed by the display entity as function
> pointers and will take a port reference as argument (this could take the form
> of struct display_entity * and port index, or struct display_entity_port *).
> The DVI and DSI operations model proposed by Tomi in this patch series will be
> kept.
>

so you mean you will be adding these "ops" as part of "struct display
entity" rather than  video source ops,

static const struct dsi_video_source_ops dsi_dsi_ops = {

	.update = dsi_bus_update,
	.dcs_write = dsi_bus_dcs_write,
	.dcs_read = dsi_bus_dcs_read,
	.configure_pins = dsi_bus_configure_pins,
	.set_clocks = dsi_bus_set_clocks,
	.enable = dsi_bus_enable,
	.disable = dsi_bus_disable,
	.set_size = dsi_bus_set_size,
	.set_operation_mode = dsi_bus_set_operation_mode,
	.set_pixel_format = dsi_bus_set_pixel_format,
	.enable_hs = dsi_bus_enable_hs,
};

if you can post CDF v3 patches early, it will give us more clarity
w.r.t to discussions you and Tomi had.

> Points that we forgot to discuss
> --------------------------------
>
> - DISPLAY_ENTITY_STREAM_SINGLE_SHOT vs. update() operation
>
> I'll look into that.
>
> Please let me know if I've forgotten anything.
>
> --
> Regards,
>
> Laurent Pinchart


Regards
Vikas Sajjan
Samsung India Software Operations Pvt Ltd.
Bangalore , India.
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