linux_dsm_epyc7002/drivers/gpu/drm/mgag200/mgag200_drv.h

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/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Copyright 2010 Matt Turner.
* Copyright 2012 Red Hat
*
* Authors: Matthew Garrett
* Matt Turner
* Dave Airlie
*/
#ifndef __MGAG200_DRV_H__
#define __MGAG200_DRV_H__
#include <linux/i2c-algo-bit.h>
#include <linux/i2c.h>
#include <video/vga.h>
#include <drm/drm_encoder.h>
#include <drm/drm_fb_helper.h>
#include <drm/drm_gem.h>
#include <drm/drm_gem_vram_helper.h>
#include "mgag200_reg.h"
#define DRIVER_AUTHOR "Matthew Garrett"
#define DRIVER_NAME "mgag200"
#define DRIVER_DESC "MGA G200 SE"
#define DRIVER_DATE "20110418"
#define DRIVER_MAJOR 1
#define DRIVER_MINOR 0
#define DRIVER_PATCHLEVEL 0
#define MGAG200FB_CONN_LIMIT 1
#define RREG8(reg) ioread8(((void __iomem *)mdev->rmmio) + (reg))
#define WREG8(reg, v) iowrite8(v, ((void __iomem *)mdev->rmmio) + (reg))
#define RREG32(reg) ioread32(((void __iomem *)mdev->rmmio) + (reg))
#define WREG32(reg, v) iowrite32(v, ((void __iomem *)mdev->rmmio) + (reg))
#define ATTR_INDEX 0x1fc0
#define ATTR_DATA 0x1fc1
#define WREG_ATTR(reg, v) \
do { \
RREG8(0x1fda); \
WREG8(ATTR_INDEX, reg); \
WREG8(ATTR_DATA, v); \
} while (0) \
#define WREG_SEQ(reg, v) \
do { \
WREG8(MGAREG_SEQ_INDEX, reg); \
WREG8(MGAREG_SEQ_DATA, v); \
} while (0) \
#define WREG_CRT(reg, v) \
do { \
WREG8(MGAREG_CRTC_INDEX, reg); \
WREG8(MGAREG_CRTC_DATA, v); \
} while (0) \
#define WREG_ECRT(reg, v) \
do { \
WREG8(MGAREG_CRTCEXT_INDEX, reg); \
WREG8(MGAREG_CRTCEXT_DATA, v); \
} while (0) \
#define GFX_INDEX 0x1fce
#define GFX_DATA 0x1fcf
#define WREG_GFX(reg, v) \
do { \
WREG8(GFX_INDEX, reg); \
WREG8(GFX_DATA, v); \
} while (0) \
#define DAC_INDEX 0x3c00
#define DAC_DATA 0x3c0a
#define WREG_DAC(reg, v) \
do { \
WREG8(DAC_INDEX, reg); \
WREG8(DAC_DATA, v); \
} while (0) \
#define MGA_MISC_OUT 0x1fc2
#define MGA_MISC_IN 0x1fcc
#define MGAG200_MAX_FB_HEIGHT 4096
#define MGAG200_MAX_FB_WIDTH 4096
#define MATROX_DPMS_CLEARED (-1)
#define to_mga_crtc(x) container_of(x, struct mga_crtc, base)
#define to_mga_encoder(x) container_of(x, struct mga_encoder, base)
#define to_mga_connector(x) container_of(x, struct mga_connector, base)
struct mga_crtc {
struct drm_crtc base;
u8 lut_r[256], lut_g[256], lut_b[256];
int last_dpms;
bool enabled;
};
struct mga_mode_info {
bool mode_config_initialized;
struct mga_crtc *crtc;
};
struct mga_encoder {
struct drm_encoder base;
int last_dpms;
};
struct mga_i2c_chan {
struct i2c_adapter adapter;
struct drm_device *dev;
struct i2c_algo_bit_data bit;
int data, clock;
};
struct mga_connector {
struct drm_connector base;
struct mga_i2c_chan *i2c;
};
drm/mgag200: Hardware cursor support G200 cards support, at best, 16 colour palleted images for the cursor so we do a conversion in the cursor_set function, and reject cursors with more than 16 colours, or cursors with partial transparency. Xorg falls back gracefully to software cursors in this case. We can't disable/enable the cursor hardware without causing momentary corruption around the cursor. Instead, once the cursor is on we leave it on, and simulate turning the cursor off by moving it offscreen. This works well. Since we can't disable -> update -> enable the cursors, we double buffer cursor icons, then just move the base address that points to the old cursor, to the new. This also works well, but uses an extra page of memory. The cursor buffers are lazily-allocated on first cursor_set. This is to make sure they don't take priority over any framebuffers in case of limited memory. Here is a representation of how the bitmap for the cursor is mapped in G200 memory : Each line of color cursor use 6 Slices of 8 bytes. Slices 0 to 3 are used for the 4bpp bitmap, slice 4 for XOR mask and slice 5 for AND mask. Each line has the following format: // Byte 0 Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Byte 6 Byte 7 // // S0: P00-01 P02-03 P04-05 P06-07 P08-09 P10-11 P12-13 P14-15 // S1: P16-17 P18-19 P20-21 P22-23 P24-25 P26-27 P28-29 P30-31 // S2: P32-33 P34-35 P36-37 P38-39 P40-41 P42-43 P44-45 P46-47 // S3: P48-49 P50-51 P52-53 P54-55 P56-57 P58-59 P60-61 P62-63 // S4: X63-56 X55-48 X47-40 X39-32 X31-24 X23-16 X15-08 X07-00 // S5: A63-56 A55-48 A47-40 A39-32 A31-24 A23-16 A15-08 A07-00 // // S0 to S5 = Slices 0 to 5 // P00 to P63 = Bitmap - pixels 0 to 63 // X00 to X63 = always 0 - pixels 0 to 63 // A00 to A63 = transparent markers - pixels 0 to 63 // 1 means colour, 0 means transparent Signed-off-by: Christopher Harvey <charvey@matrox.com> Signed-off-by: Mathieu Larouche <mathieu.larouche@matrox.com> Acked-by: Julia Lemire <jlemire@matrox.com> Tested-by: Julia Lemire <jlemire@matrox.com> Signed-off-by: Dave Airlie <airlied@gmail.com>
2013-06-06 02:24:26 +07:00
struct mga_cursor {
struct drm_gem_vram_object *gbo[2];
unsigned int next_index;
drm/mgag200: Hardware cursor support G200 cards support, at best, 16 colour palleted images for the cursor so we do a conversion in the cursor_set function, and reject cursors with more than 16 colours, or cursors with partial transparency. Xorg falls back gracefully to software cursors in this case. We can't disable/enable the cursor hardware without causing momentary corruption around the cursor. Instead, once the cursor is on we leave it on, and simulate turning the cursor off by moving it offscreen. This works well. Since we can't disable -> update -> enable the cursors, we double buffer cursor icons, then just move the base address that points to the old cursor, to the new. This also works well, but uses an extra page of memory. The cursor buffers are lazily-allocated on first cursor_set. This is to make sure they don't take priority over any framebuffers in case of limited memory. Here is a representation of how the bitmap for the cursor is mapped in G200 memory : Each line of color cursor use 6 Slices of 8 bytes. Slices 0 to 3 are used for the 4bpp bitmap, slice 4 for XOR mask and slice 5 for AND mask. Each line has the following format: // Byte 0 Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Byte 6 Byte 7 // // S0: P00-01 P02-03 P04-05 P06-07 P08-09 P10-11 P12-13 P14-15 // S1: P16-17 P18-19 P20-21 P22-23 P24-25 P26-27 P28-29 P30-31 // S2: P32-33 P34-35 P36-37 P38-39 P40-41 P42-43 P44-45 P46-47 // S3: P48-49 P50-51 P52-53 P54-55 P56-57 P58-59 P60-61 P62-63 // S4: X63-56 X55-48 X47-40 X39-32 X31-24 X23-16 X15-08 X07-00 // S5: A63-56 A55-48 A47-40 A39-32 A31-24 A23-16 A15-08 A07-00 // // S0 to S5 = Slices 0 to 5 // P00 to P63 = Bitmap - pixels 0 to 63 // X00 to X63 = always 0 - pixels 0 to 63 // A00 to A63 = transparent markers - pixels 0 to 63 // 1 means colour, 0 means transparent Signed-off-by: Christopher Harvey <charvey@matrox.com> Signed-off-by: Mathieu Larouche <mathieu.larouche@matrox.com> Acked-by: Julia Lemire <jlemire@matrox.com> Tested-by: Julia Lemire <jlemire@matrox.com> Signed-off-by: Dave Airlie <airlied@gmail.com>
2013-06-06 02:24:26 +07:00
};
struct mga_mc {
resource_size_t vram_size;
resource_size_t vram_base;
resource_size_t vram_window;
};
enum mga_type {
G200_SE_A,
G200_SE_B,
G200_WB,
G200_EV,
G200_EH,
G200_EH3,
G200_ER,
G200_EW3,
};
/* HW does not handle 'startadd' field correct. */
#define MGAG200_FLAG_HW_BUG_NO_STARTADD (1ul << 8)
#define MGAG200_TYPE_MASK (0x000000ff)
#define MGAG200_FLAG_MASK (0x00ffff00)
#define IS_G200_SE(mdev) (mdev->type == G200_SE_A || mdev->type == G200_SE_B)
struct mga_device {
struct drm_device *dev;
unsigned long flags;
resource_size_t rmmio_base;
resource_size_t rmmio_size;
void __iomem *rmmio;
struct mga_mc mc;
struct mga_mode_info mode_info;
drm/mgag200: Hardware cursor support G200 cards support, at best, 16 colour palleted images for the cursor so we do a conversion in the cursor_set function, and reject cursors with more than 16 colours, or cursors with partial transparency. Xorg falls back gracefully to software cursors in this case. We can't disable/enable the cursor hardware without causing momentary corruption around the cursor. Instead, once the cursor is on we leave it on, and simulate turning the cursor off by moving it offscreen. This works well. Since we can't disable -> update -> enable the cursors, we double buffer cursor icons, then just move the base address that points to the old cursor, to the new. This also works well, but uses an extra page of memory. The cursor buffers are lazily-allocated on first cursor_set. This is to make sure they don't take priority over any framebuffers in case of limited memory. Here is a representation of how the bitmap for the cursor is mapped in G200 memory : Each line of color cursor use 6 Slices of 8 bytes. Slices 0 to 3 are used for the 4bpp bitmap, slice 4 for XOR mask and slice 5 for AND mask. Each line has the following format: // Byte 0 Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Byte 6 Byte 7 // // S0: P00-01 P02-03 P04-05 P06-07 P08-09 P10-11 P12-13 P14-15 // S1: P16-17 P18-19 P20-21 P22-23 P24-25 P26-27 P28-29 P30-31 // S2: P32-33 P34-35 P36-37 P38-39 P40-41 P42-43 P44-45 P46-47 // S3: P48-49 P50-51 P52-53 P54-55 P56-57 P58-59 P60-61 P62-63 // S4: X63-56 X55-48 X47-40 X39-32 X31-24 X23-16 X15-08 X07-00 // S5: A63-56 A55-48 A47-40 A39-32 A31-24 A23-16 A15-08 A07-00 // // S0 to S5 = Slices 0 to 5 // P00 to P63 = Bitmap - pixels 0 to 63 // X00 to X63 = always 0 - pixels 0 to 63 // A00 to A63 = transparent markers - pixels 0 to 63 // 1 means colour, 0 means transparent Signed-off-by: Christopher Harvey <charvey@matrox.com> Signed-off-by: Mathieu Larouche <mathieu.larouche@matrox.com> Acked-by: Julia Lemire <jlemire@matrox.com> Tested-by: Julia Lemire <jlemire@matrox.com> Signed-off-by: Dave Airlie <airlied@gmail.com>
2013-06-06 02:24:26 +07:00
struct mga_cursor cursor;
size_t vram_fb_available;
bool suspended;
int num_crtc;
enum mga_type type;
int has_sdram;
struct drm_display_mode mode;
int bpp_shifts[4];
int fb_mtrr;
/* SE model number stored in reg 0x1e24 */
u32 unique_rev_id;
};
static inline enum mga_type
mgag200_type_from_driver_data(kernel_ulong_t driver_data)
{
return (enum mga_type)(driver_data & MGAG200_TYPE_MASK);
}
static inline unsigned long
mgag200_flags_from_driver_data(kernel_ulong_t driver_data)
{
return driver_data & MGAG200_FLAG_MASK;
}
/* mgag200_mode.c */
int mgag200_modeset_init(struct mga_device *mdev);
void mgag200_modeset_fini(struct mga_device *mdev);
/* mgag200_main.c */
int mgag200_driver_load(struct drm_device *dev, unsigned long flags);
void mgag200_driver_unload(struct drm_device *dev);
/* mgag200_i2c.c */
struct mga_i2c_chan *mgag200_i2c_create(struct drm_device *dev);
void mgag200_i2c_destroy(struct mga_i2c_chan *i2c);
int mgag200_mm_init(struct mga_device *mdev);
void mgag200_mm_fini(struct mga_device *mdev);
int mgag200_mmap(struct file *filp, struct vm_area_struct *vma);
int mgag200_cursor_init(struct mga_device *mdev);
void mgag200_cursor_fini(struct mga_device *mdev);
int mgag200_crtc_cursor_set(struct drm_crtc *crtc, struct drm_file *file_priv,
uint32_t handle, uint32_t width, uint32_t height);
int mgag200_crtc_cursor_move(struct drm_crtc *crtc, int x, int y);
drm/mgag200: Hardware cursor support G200 cards support, at best, 16 colour palleted images for the cursor so we do a conversion in the cursor_set function, and reject cursors with more than 16 colours, or cursors with partial transparency. Xorg falls back gracefully to software cursors in this case. We can't disable/enable the cursor hardware without causing momentary corruption around the cursor. Instead, once the cursor is on we leave it on, and simulate turning the cursor off by moving it offscreen. This works well. Since we can't disable -> update -> enable the cursors, we double buffer cursor icons, then just move the base address that points to the old cursor, to the new. This also works well, but uses an extra page of memory. The cursor buffers are lazily-allocated on first cursor_set. This is to make sure they don't take priority over any framebuffers in case of limited memory. Here is a representation of how the bitmap for the cursor is mapped in G200 memory : Each line of color cursor use 6 Slices of 8 bytes. Slices 0 to 3 are used for the 4bpp bitmap, slice 4 for XOR mask and slice 5 for AND mask. Each line has the following format: // Byte 0 Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Byte 6 Byte 7 // // S0: P00-01 P02-03 P04-05 P06-07 P08-09 P10-11 P12-13 P14-15 // S1: P16-17 P18-19 P20-21 P22-23 P24-25 P26-27 P28-29 P30-31 // S2: P32-33 P34-35 P36-37 P38-39 P40-41 P42-43 P44-45 P46-47 // S3: P48-49 P50-51 P52-53 P54-55 P56-57 P58-59 P60-61 P62-63 // S4: X63-56 X55-48 X47-40 X39-32 X31-24 X23-16 X15-08 X07-00 // S5: A63-56 A55-48 A47-40 A39-32 A31-24 A23-16 A15-08 A07-00 // // S0 to S5 = Slices 0 to 5 // P00 to P63 = Bitmap - pixels 0 to 63 // X00 to X63 = always 0 - pixels 0 to 63 // A00 to A63 = transparent markers - pixels 0 to 63 // 1 means colour, 0 means transparent Signed-off-by: Christopher Harvey <charvey@matrox.com> Signed-off-by: Mathieu Larouche <mathieu.larouche@matrox.com> Acked-by: Julia Lemire <jlemire@matrox.com> Tested-by: Julia Lemire <jlemire@matrox.com> Signed-off-by: Dave Airlie <airlied@gmail.com>
2013-06-06 02:24:26 +07:00
#endif /* __MGAG200_DRV_H__ */