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linux_dsm_epyc7002/drivers/gpu/drm/sti/sti_vid.c
Vincent Abriou 29d1dc62e1 drm/sti: atomic crtc/plane update 
Better fit STI hardware structure.
Planes are no more responsible of updating mixer information such
as z-order and status. It is now up to the CRTC atomic flush to
do it. Plane actions (enable or disable) are performed atomically.
Disabling of a plane is synchronize with the vsync event.

Signed-off-by: Vincent Abriou <vincent.abriou@st.com>
Reviewed-by: Benjamin Gaignard <benjamin.gaignard@linaro.org>
2015-08-03 14:26:05 +02:00

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/*
* Copyright (C) STMicroelectronics SA 2014
* Author: Fabien Dessenne <fabien.dessenne@st.com> for STMicroelectronics.
* License terms: GNU General Public License (GPL), version 2
*/
#include <drm/drmP.h>
#include "sti_plane.h"
#include "sti_vid.h"
#include "sti_vtg.h"
/* Registers */
#define VID_CTL 0x00
#define VID_ALP 0x04
#define VID_CLF 0x08
#define VID_VPO 0x0C
#define VID_VPS 0x10
#define VID_KEY1 0x28
#define VID_KEY2 0x2C
#define VID_MPR0 0x30
#define VID_MPR1 0x34
#define VID_MPR2 0x38
#define VID_MPR3 0x3C
#define VID_MST 0x68
#define VID_BC 0x70
#define VID_TINT 0x74
#define VID_CSAT 0x78
/* Registers values */
#define VID_CTL_IGNORE (BIT(31) | BIT(30))
#define VID_CTL_PSI_ENABLE (BIT(2) | BIT(1) | BIT(0))
#define VID_ALP_OPAQUE 0x00000080
#define VID_BC_DFLT 0x00008000
#define VID_TINT_DFLT 0x00000000
#define VID_CSAT_DFLT 0x00000080
/* YCbCr to RGB BT709:
* R = Y+1.5391Cr
* G = Y-0.4590Cr-0.1826Cb
* B = Y+1.8125Cb */
#define VID_MPR0_BT709 0x0A800000
#define VID_MPR1_BT709 0x0AC50000
#define VID_MPR2_BT709 0x07150545
#define VID_MPR3_BT709 0x00000AE8
void sti_vid_commit(struct sti_vid *vid,
struct drm_plane_state *state)
{
struct drm_crtc *crtc = state->crtc;
struct drm_display_mode *mode = &crtc->mode;
int dst_x = state->crtc_x;
int dst_y = state->crtc_y;
int dst_w = clamp_val(state->crtc_w, 0, mode->crtc_hdisplay - dst_x);
int dst_h = clamp_val(state->crtc_h, 0, mode->crtc_vdisplay - dst_y);
u32 val, ydo, xdo, yds, xds;
/* Input / output size
* Align to upper even value */
dst_w = ALIGN(dst_w, 2);
dst_h = ALIGN(dst_h, 2);
/* Unmask */
val = readl(vid->regs + VID_CTL);
val &= ~VID_CTL_IGNORE;
writel(val, vid->regs + VID_CTL);
ydo = sti_vtg_get_line_number(*mode, dst_y);
yds = sti_vtg_get_line_number(*mode, dst_y + dst_h - 1);
xdo = sti_vtg_get_pixel_number(*mode, dst_x);
xds = sti_vtg_get_pixel_number(*mode, dst_x + dst_w - 1);
writel((ydo << 16) | xdo, vid->regs + VID_VPO);
writel((yds << 16) | xds, vid->regs + VID_VPS);
}
void sti_vid_disable(struct sti_vid *vid)
{
u32 val;
/* Mask */
val = readl(vid->regs + VID_CTL);
val |= VID_CTL_IGNORE;
writel(val, vid->regs + VID_CTL);
}
static void sti_vid_init(struct sti_vid *vid)
{
/* Enable PSI, Mask layer */
writel(VID_CTL_PSI_ENABLE | VID_CTL_IGNORE, vid->regs + VID_CTL);
/* Opaque */
writel(VID_ALP_OPAQUE, vid->regs + VID_ALP);
/* Color conversion parameters */
writel(VID_MPR0_BT709, vid->regs + VID_MPR0);
writel(VID_MPR1_BT709, vid->regs + VID_MPR1);
writel(VID_MPR2_BT709, vid->regs + VID_MPR2);
writel(VID_MPR3_BT709, vid->regs + VID_MPR3);
/* Brightness, contrast, tint, saturation */
writel(VID_BC_DFLT, vid->regs + VID_BC);
writel(VID_TINT_DFLT, vid->regs + VID_TINT);
writel(VID_CSAT_DFLT, vid->regs + VID_CSAT);
}
struct sti_vid *sti_vid_create(struct device *dev, int id,
void __iomem *baseaddr)
{
struct sti_vid *vid;
vid = devm_kzalloc(dev, sizeof(*vid), GFP_KERNEL);
if (!vid) {
DRM_ERROR("Failed to allocate memory for VID\n");
return NULL;
}
vid->dev = dev;
vid->regs = baseaddr;
vid->id = id;
sti_vid_init(vid);
return vid;
}
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