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switch-linux/drivers/media/platform/vsp1/vsp1_wpf.c
Linus Torvalds c0da4fa0d1 media updates for v4.14-rc1 
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Merge tag 'media/v4.14-1' of git://git.kernel.org/pub/scm/linux/kernel/git/mchehab/linux-media

Pull media updates from Mauro Carvalho Chehab:
 "Brazil's Independence Day pull request :-)

  This is one of the biggest media pull requests, with 625 patches
  affecting almost all parts of media (RC, DVB, V4L2, CEC, docs).

  This contains:

   - A lot of new drivers:
     * DVB frontends: mxl5xx, stv0910, stv6111;
     * camera flash: as3645a led driver;
     * HDMI receiver: adv748X;
     * camera sensor: Omnivision 6650 5M driver (ov6650);
     * HDMI CEC: ao-cec meson driver;
     * V4L2: Qualcom camss driver;
     * Remote controller: gpio-ir-tx, pwm-ir-tx and zx-irdec drivers.

   - The DDbridge DVB driver got a massive update, with makes it in sync
     with modern hardware from that vendor;

   - There's an important milestone on this series: the DVB
     documentation was written in 2003, but only started to be updated
     in 2007. It also used to contain several gaps from the time it was
     kept out of tree, mentioning error codes and device nodes that
     never existed upstream. On this series, it received a massive
     update: all non-deprecated digital TV APIs are now in sync with the
     current implementation;

   - Some DVB APIs that aren't used by any upstream driver got removed;

   - Other parts of the media documentation algo got updated, fixing
     some bugs on its PDF output and making it compatible with Sphinx
     version 1.6.

     As the number of hacks required to build PDF output reduced, I hope
     we'll have less troubles as newer versions of our documentation
     toolchain are released (famous last words);

   - As usual, lots of driver cleanups and improvements"

* tag 'media/v4.14-1' of git://git.kernel.org/pub/scm/linux/kernel/git/mchehab/linux-media: (624 commits)
  media: leds: as3645a: add V4L2_FLASH_LED_CLASS dependency
  media: get rid of removed DMX_GET_CAPS and DMX_SET_SOURCE leftovers
  media: Revert "[media] v4l: async: make v4l2 coexist with devicetree nodes in a dt overlay"
  media: staging: atomisp: sh_css_calloc shall return a pointer to the allocated space
  media: Revert "[media] lirc_dev: remove superfluous get/put_device() calls"
  media: add qcom_camss.rst to v4l-drivers rst file
  media: dvb headers: make checkpatch happier
  media: dvb uapi: move frontend legacy API to another part of the book
  media: pixfmt-srggb12p.rst: better format the table for PDF output
  media: docs-rst: media: Don't use \small for V4L2_PIX_FMT_SRGGB10 documentation
  media: index.rst: don't write "Contents:" on PDF output
  media: pixfmt*.rst: replace a two dots by a comma
  media: vidioc-g-fmt.rst: adjust table format
  media: vivid.rst: add a blank line to correct ReST format
  media: v4l2 uapi book: get rid of driver programming's chapter
  media: format.rst: use the right markup for important notes
  media: docs-rst: cardlists: change their format to flat-tables
  media: em28xx-cardlist.rst: update to reflect last changes
  media: v4l2-event.rst: adjust table to fit on PDF output
  media: docs: don't show ToC for each part on PDF output
  ...
2017-09-07 12:53:14 -07:00

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/*
* vsp1_wpf.c -- R-Car VSP1 Write Pixel Formatter
*
* Copyright (C) 2013-2014 Renesas Electronics Corporation
*
* Contact: Laurent Pinchart (laurent.pinchart@ideasonboard.com)
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*/
#include <linux/device.h>
#include <media/v4l2-subdev.h>
#include "vsp1.h"
#include "vsp1_dl.h"
#include "vsp1_pipe.h"
#include "vsp1_rwpf.h"
#include "vsp1_video.h"
#define WPF_GEN2_MAX_WIDTH 2048U
#define WPF_GEN2_MAX_HEIGHT 2048U
#define WPF_GEN3_MAX_WIDTH 8190U
#define WPF_GEN3_MAX_HEIGHT 8190U
/* -----------------------------------------------------------------------------
* Device Access
*/
static inline void vsp1_wpf_write(struct vsp1_rwpf *wpf,
struct vsp1_dl_list *dl, u32 reg, u32 data)
{
vsp1_dl_list_write(dl, reg + wpf->entity.index * VI6_WPF_OFFSET, data);
}
/* -----------------------------------------------------------------------------
* Controls
*/
enum wpf_flip_ctrl {
WPF_CTRL_VFLIP = 0,
WPF_CTRL_HFLIP = 1,
};
static int vsp1_wpf_set_rotation(struct vsp1_rwpf *wpf, unsigned int rotation)
{
struct vsp1_video *video = wpf->video;
struct v4l2_mbus_framefmt *sink_format;
struct v4l2_mbus_framefmt *source_format;
bool rotate;
int ret = 0;
/*
* Only consider the 0°/180° from/to 90°/270° modifications, the rest
* is taken care of by the flipping configuration.
*/
rotate = rotation == 90 || rotation == 270;
if (rotate == wpf->flip.rotate)
return 0;
/* Changing rotation isn't allowed when buffers are allocated. */
mutex_lock(&video->lock);
if (vb2_is_busy(&video->queue)) {
ret = -EBUSY;
goto done;
}
sink_format = vsp1_entity_get_pad_format(&wpf->entity,
wpf->entity.config,
RWPF_PAD_SINK);
source_format = vsp1_entity_get_pad_format(&wpf->entity,
wpf->entity.config,
RWPF_PAD_SOURCE);
mutex_lock(&wpf->entity.lock);
if (rotate) {
source_format->width = sink_format->height;
source_format->height = sink_format->width;
} else {
source_format->width = sink_format->width;
source_format->height = sink_format->height;
}
wpf->flip.rotate = rotate;
mutex_unlock(&wpf->entity.lock);
done:
mutex_unlock(&video->lock);
return ret;
}
static int vsp1_wpf_s_ctrl(struct v4l2_ctrl *ctrl)
{
struct vsp1_rwpf *wpf =
container_of(ctrl->handler, struct vsp1_rwpf, ctrls);
unsigned int rotation;
u32 flip = 0;
int ret;
/* Update the rotation. */
rotation = wpf->flip.ctrls.rotate ? wpf->flip.ctrls.rotate->val : 0;
ret = vsp1_wpf_set_rotation(wpf, rotation);
if (ret < 0)
return ret;
/*
* Compute the flip value resulting from all three controls, with
* rotation by 180° flipping the image in both directions. Store the
* result in the pending flip field for the next frame that will be
* processed.
*/
if (wpf->flip.ctrls.vflip->val)
flip |= BIT(WPF_CTRL_VFLIP);
if (wpf->flip.ctrls.hflip && wpf->flip.ctrls.hflip->val)
flip |= BIT(WPF_CTRL_HFLIP);
if (rotation == 180 || rotation == 270)
flip ^= BIT(WPF_CTRL_VFLIP) | BIT(WPF_CTRL_HFLIP);
spin_lock_irq(&wpf->flip.lock);
wpf->flip.pending = flip;
spin_unlock_irq(&wpf->flip.lock);
return 0;
}
static const struct v4l2_ctrl_ops vsp1_wpf_ctrl_ops = {
.s_ctrl = vsp1_wpf_s_ctrl,
};
static int wpf_init_controls(struct vsp1_rwpf *wpf)
{
struct vsp1_device *vsp1 = wpf->entity.vsp1;
unsigned int num_flip_ctrls;
spin_lock_init(&wpf->flip.lock);
if (wpf->entity.index != 0) {
/* Only WPF0 supports flipping. */
num_flip_ctrls = 0;
} else if (vsp1->info->features & VSP1_HAS_WPF_HFLIP) {
/*
* When horizontal flip is supported the WPF implements three
* controls (horizontal flip, vertical flip and rotation).
*/
num_flip_ctrls = 3;
} else if (vsp1->info->features & VSP1_HAS_WPF_VFLIP) {
/*
* When only vertical flip is supported the WPF implements a
* single control (vertical flip).
*/
num_flip_ctrls = 1;
} else {
/* Otherwise flipping is not supported. */
num_flip_ctrls = 0;
}
vsp1_rwpf_init_ctrls(wpf, num_flip_ctrls);
if (num_flip_ctrls >= 1) {
wpf->flip.ctrls.vflip =
v4l2_ctrl_new_std(&wpf->ctrls, &vsp1_wpf_ctrl_ops,
V4L2_CID_VFLIP, 0, 1, 1, 0);
}
if (num_flip_ctrls == 3) {
wpf->flip.ctrls.hflip =
v4l2_ctrl_new_std(&wpf->ctrls, &vsp1_wpf_ctrl_ops,
V4L2_CID_HFLIP, 0, 1, 1, 0);
wpf->flip.ctrls.rotate =
v4l2_ctrl_new_std(&wpf->ctrls, &vsp1_wpf_ctrl_ops,
V4L2_CID_ROTATE, 0, 270, 90, 0);
v4l2_ctrl_cluster(3, &wpf->flip.ctrls.vflip);
}
if (wpf->ctrls.error) {
dev_err(vsp1->dev, "wpf%u: failed to initialize controls\n",
wpf->entity.index);
return wpf->ctrls.error;
}
return 0;
}
/* -----------------------------------------------------------------------------
* V4L2 Subdevice Core Operations
*/
static int wpf_s_stream(struct v4l2_subdev *subdev, int enable)
{
struct vsp1_rwpf *wpf = to_rwpf(subdev);
struct vsp1_device *vsp1 = wpf->entity.vsp1;
if (enable)
return 0;
/*
* Write to registers directly when stopping the stream as there will be
* no pipeline run to apply the display list.
*/
vsp1_write(vsp1, VI6_WPF_IRQ_ENB(wpf->entity.index), 0);
vsp1_write(vsp1, wpf->entity.index * VI6_WPF_OFFSET +
VI6_WPF_SRCRPF, 0);
return 0;
}
/* -----------------------------------------------------------------------------
* V4L2 Subdevice Operations
*/
static const struct v4l2_subdev_video_ops wpf_video_ops = {
.s_stream = wpf_s_stream,
};
static const struct v4l2_subdev_ops wpf_ops = {
.video = &wpf_video_ops,
.pad = &vsp1_rwpf_pad_ops,
};
/* -----------------------------------------------------------------------------
* VSP1 Entity Operations
*/
static void vsp1_wpf_destroy(struct vsp1_entity *entity)
{
struct vsp1_rwpf *wpf = entity_to_rwpf(entity);
vsp1_dlm_destroy(wpf->dlm);
}
static void wpf_configure(struct vsp1_entity *entity,
struct vsp1_pipeline *pipe,
struct vsp1_dl_list *dl,
enum vsp1_entity_params params)
{
struct vsp1_rwpf *wpf = to_rwpf(&entity->subdev);
struct vsp1_device *vsp1 = wpf->entity.vsp1;
const struct v4l2_mbus_framefmt *source_format;
const struct v4l2_mbus_framefmt *sink_format;
unsigned int i;
u32 outfmt = 0;
u32 srcrpf = 0;
if (params == VSP1_ENTITY_PARAMS_RUNTIME) {
const unsigned int mask = BIT(WPF_CTRL_VFLIP)
| BIT(WPF_CTRL_HFLIP);
unsigned long flags;
spin_lock_irqsave(&wpf->flip.lock, flags);
wpf->flip.active = (wpf->flip.active & ~mask)
| (wpf->flip.pending & mask);
spin_unlock_irqrestore(&wpf->flip.lock, flags);
outfmt = (wpf->alpha << VI6_WPF_OUTFMT_PDV_SHIFT) | wpf->outfmt;
if (wpf->flip.active & BIT(WPF_CTRL_VFLIP))
outfmt |= VI6_WPF_OUTFMT_FLP;
if (wpf->flip.active & BIT(WPF_CTRL_HFLIP))
outfmt |= VI6_WPF_OUTFMT_HFLP;
vsp1_wpf_write(wpf, dl, VI6_WPF_OUTFMT, outfmt);
return;
}
sink_format = vsp1_entity_get_pad_format(&wpf->entity,
wpf->entity.config,
RWPF_PAD_SINK);
source_format = vsp1_entity_get_pad_format(&wpf->entity,
wpf->entity.config,
RWPF_PAD_SOURCE);
if (params == VSP1_ENTITY_PARAMS_PARTITION) {
const struct v4l2_pix_format_mplane *format = &wpf->format;
const struct vsp1_format_info *fmtinfo = wpf->fmtinfo;
struct vsp1_rwpf_memory mem = wpf->mem;
unsigned int flip = wpf->flip.active;
unsigned int width = sink_format->width;
unsigned int height = sink_format->height;
unsigned int offset;
/*
* Cropping. The partition algorithm can split the image into
* multiple slices.
*/
if (pipe->partitions > 1)
width = pipe->partition->wpf.width;
vsp1_wpf_write(wpf, dl, VI6_WPF_HSZCLIP, VI6_WPF_SZCLIP_EN |
(0 << VI6_WPF_SZCLIP_OFST_SHIFT) |
(width << VI6_WPF_SZCLIP_SIZE_SHIFT));
vsp1_wpf_write(wpf, dl, VI6_WPF_VSZCLIP, VI6_WPF_SZCLIP_EN |
(0 << VI6_WPF_SZCLIP_OFST_SHIFT) |
(height << VI6_WPF_SZCLIP_SIZE_SHIFT));
if (pipe->lif)
return;
/*
* Update the memory offsets based on flipping configuration.
* The destination addresses point to the locations where the
* VSP starts writing to memory, which can be any corner of the
* image depending on the combination of flipping and rotation.
*/
/*
* First take the partition left coordinate into account.
* Compute the offset to order the partitions correctly on the
* output based on whether flipping is enabled. Consider
* horizontal flipping when rotation is disabled but vertical
* flipping when rotation is enabled, as rotating the image
* switches the horizontal and vertical directions. The offset
* is applied horizontally or vertically accordingly.
*/
if (flip & BIT(WPF_CTRL_HFLIP) && !wpf->flip.rotate)
offset = format->width - pipe->partition->wpf.left
- pipe->partition->wpf.width;
else if (flip & BIT(WPF_CTRL_VFLIP) && wpf->flip.rotate)
offset = format->height - pipe->partition->wpf.left
- pipe->partition->wpf.width;
else
offset = pipe->partition->wpf.left;
for (i = 0; i < format->num_planes; ++i) {
unsigned int hsub = i > 0 ? fmtinfo->hsub : 1;
unsigned int vsub = i > 0 ? fmtinfo->vsub : 1;
if (wpf->flip.rotate)
mem.addr[i] += offset / vsub
* format->plane_fmt[i].bytesperline;
else
mem.addr[i] += offset / hsub
* fmtinfo->bpp[i] / 8;
}
if (flip & BIT(WPF_CTRL_VFLIP)) {
/*
* When rotating the output (after rotation) image
* height is equal to the partition width (before
* rotation). Otherwise it is equal to the output
* image height.
*/
if (wpf->flip.rotate)
height = pipe->partition->wpf.width;
else
height = format->height;
mem.addr[0] += (height - 1)
* format->plane_fmt[0].bytesperline;
if (format->num_planes > 1) {
offset = (height / fmtinfo->vsub - 1)
* format->plane_fmt[1].bytesperline;
mem.addr[1] += offset;
mem.addr[2] += offset;
}
}
if (wpf->flip.rotate && !(flip & BIT(WPF_CTRL_HFLIP))) {
unsigned int hoffset = max(0, (int)format->width - 16);
/*
* Compute the output coordinate. The partition
* horizontal (left) offset becomes a vertical offset.
*/
for (i = 0; i < format->num_planes; ++i) {
unsigned int hsub = i > 0 ? fmtinfo->hsub : 1;
mem.addr[i] += hoffset / hsub
* fmtinfo->bpp[i] / 8;
}
}
/*
* On Gen3 hardware the SPUVS bit has no effect on 3-planar
* formats. Swap the U and V planes manually in that case.
*/
if (vsp1->info->gen == 3 && format->num_planes == 3 &&
fmtinfo->swap_uv)
swap(mem.addr[1], mem.addr[2]);
vsp1_wpf_write(wpf, dl, VI6_WPF_DSTM_ADDR_Y, mem.addr[0]);
vsp1_wpf_write(wpf, dl, VI6_WPF_DSTM_ADDR_C0, mem.addr[1]);
vsp1_wpf_write(wpf, dl, VI6_WPF_DSTM_ADDR_C1, mem.addr[2]);
return;
}
/* Format */
if (!pipe->lif) {
const struct v4l2_pix_format_mplane *format = &wpf->format;
const struct vsp1_format_info *fmtinfo = wpf->fmtinfo;
outfmt = fmtinfo->hwfmt << VI6_WPF_OUTFMT_WRFMT_SHIFT;
if (wpf->flip.rotate)
outfmt |= VI6_WPF_OUTFMT_ROT;
if (fmtinfo->alpha)
outfmt |= VI6_WPF_OUTFMT_PXA;
if (fmtinfo->swap_yc)
outfmt |= VI6_WPF_OUTFMT_SPYCS;
if (fmtinfo->swap_uv)
outfmt |= VI6_WPF_OUTFMT_SPUVS;
/* Destination stride and byte swapping. */
vsp1_wpf_write(wpf, dl, VI6_WPF_DSTM_STRIDE_Y,
format->plane_fmt[0].bytesperline);
if (format->num_planes > 1)
vsp1_wpf_write(wpf, dl, VI6_WPF_DSTM_STRIDE_C,
format->plane_fmt[1].bytesperline);
vsp1_wpf_write(wpf, dl, VI6_WPF_DSWAP, fmtinfo->swap);
if (vsp1->info->features & VSP1_HAS_WPF_HFLIP &&
wpf->entity.index == 0)
vsp1_wpf_write(wpf, dl, VI6_WPF_ROT_CTRL,
VI6_WPF_ROT_CTRL_LN16 |
(256 << VI6_WPF_ROT_CTRL_LMEM_WD_SHIFT));
}
if (sink_format->code != source_format->code)
outfmt |= VI6_WPF_OUTFMT_CSC;
wpf->outfmt = outfmt;
vsp1_dl_list_write(dl, VI6_DPR_WPF_FPORCH(wpf->entity.index),
VI6_DPR_WPF_FPORCH_FP_WPFN);
vsp1_dl_list_write(dl, VI6_WPF_WRBCK_CTRL, 0);
/*
* Sources. If the pipeline has a single input and BRU is not used,
* configure it as the master layer. Otherwise configure all
* inputs as sub-layers and select the virtual RPF as the master
* layer.
*/
for (i = 0; i < vsp1->info->rpf_count; ++i) {
struct vsp1_rwpf *input = pipe->inputs[i];
if (!input)
continue;
srcrpf |= (!pipe->bru && pipe->num_inputs == 1)
? VI6_WPF_SRCRPF_RPF_ACT_MST(input->entity.index)
: VI6_WPF_SRCRPF_RPF_ACT_SUB(input->entity.index);
}
if (pipe->bru || pipe->num_inputs > 1)
srcrpf |= pipe->bru->type == VSP1_ENTITY_BRU
? VI6_WPF_SRCRPF_VIRACT_MST
: VI6_WPF_SRCRPF_VIRACT2_MST;
vsp1_wpf_write(wpf, dl, VI6_WPF_SRCRPF, srcrpf);
/* Enable interrupts */
vsp1_dl_list_write(dl, VI6_WPF_IRQ_STA(wpf->entity.index), 0);
vsp1_dl_list_write(dl, VI6_WPF_IRQ_ENB(wpf->entity.index),
VI6_WFP_IRQ_ENB_DFEE);
}
static unsigned int wpf_max_width(struct vsp1_entity *entity,
struct vsp1_pipeline *pipe)
{
struct vsp1_rwpf *wpf = to_rwpf(&entity->subdev);
return wpf->flip.rotate ? 256 : wpf->max_width;
}
static void wpf_partition(struct vsp1_entity *entity,
struct vsp1_pipeline *pipe,
struct vsp1_partition *partition,
unsigned int partition_idx,
struct vsp1_partition_window *window)
{
partition->wpf = *window;
}
static const struct vsp1_entity_operations wpf_entity_ops = {
.destroy = vsp1_wpf_destroy,
.configure = wpf_configure,
.max_width = wpf_max_width,
.partition = wpf_partition,
};
/* -----------------------------------------------------------------------------
* Initialization and Cleanup
*/
struct vsp1_rwpf *vsp1_wpf_create(struct vsp1_device *vsp1, unsigned int index)
{
struct vsp1_rwpf *wpf;
char name[6];
int ret;
wpf = devm_kzalloc(vsp1->dev, sizeof(*wpf), GFP_KERNEL);
if (wpf == NULL)
return ERR_PTR(-ENOMEM);
if (vsp1->info->gen == 2) {
wpf->max_width = WPF_GEN2_MAX_WIDTH;
wpf->max_height = WPF_GEN2_MAX_HEIGHT;
} else {
wpf->max_width = WPF_GEN3_MAX_WIDTH;
wpf->max_height = WPF_GEN3_MAX_HEIGHT;
}
wpf->entity.ops = &wpf_entity_ops;
wpf->entity.type = VSP1_ENTITY_WPF;
wpf->entity.index = index;
sprintf(name, "wpf.%u", index);
ret = vsp1_entity_init(vsp1, &wpf->entity, name, 2, &wpf_ops,
MEDIA_ENT_F_PROC_VIDEO_PIXEL_FORMATTER);
if (ret < 0)
return ERR_PTR(ret);
/* Initialize the display list manager. */
wpf->dlm = vsp1_dlm_create(vsp1, index, 64);
if (!wpf->dlm) {
ret = -ENOMEM;
goto error;
}
/* Initialize the control handler. */
ret = wpf_init_controls(wpf);
if (ret < 0) {
dev_err(vsp1->dev, "wpf%u: failed to initialize controls\n",
index);
goto error;
}
v4l2_ctrl_handler_setup(&wpf->ctrls);
return wpf;
error:
vsp1_entity_destroy(&wpf->entity);
return ERR_PTR(ret);
}
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