drivers/gpu/drm/rockchip/rockchip_drm_vop.h at v6.10-rc7

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Linux kernel mirror (for testing) git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git
kernel os linux
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kernel / drivers / gpu / drm / rockchip / rockchip_drm_vop.h
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  1/* SPDX-License-Identifier: GPL-2.0-only */
  2/*
  3 * Copyright (C) Fuzhou Rockchip Electronics Co.Ltd
  4 * Author:Mark Yao <mark.yao@rock-chips.com>
  5 */
  6
  7#ifndef _ROCKCHIP_DRM_VOP_H
  8#define _ROCKCHIP_DRM_VOP_H
  9
 10/*
 11 * major: IP major version, used for IP structure
 12 * minor: big feature change under same structure
 13 */
 14#define VOP_VERSION(major, minor)	((major) << 8 | (minor))
 15#define VOP_MAJOR(version)		((version) >> 8)
 16#define VOP_MINOR(version)		((version) & 0xff)
 17
 18#define NUM_YUV2YUV_COEFFICIENTS 12
 19
 20/* AFBC supports a number of configurable modes. Relevant to us is block size
 21 * (16x16 or 32x8), storage modifiers (SPARSE, SPLIT), and the YUV-like
 22 * colourspace transform (YTR). 16x16 SPARSE mode is always used. SPLIT mode
 23 * could be enabled via the hreg_block_split register, but is not currently
 24 * handled. The colourspace transform is implicitly always assumed by the
 25 * decoder, so consumers must use this transform as well.
 26 *
 27 * Failure to match modifiers will cause errors displaying AFBC buffers
 28 * produced by conformant AFBC producers, including Mesa.
 29 */
 30#define ROCKCHIP_AFBC_MOD \
 31	DRM_FORMAT_MOD_ARM_AFBC( \
 32		AFBC_FORMAT_MOD_BLOCK_SIZE_16x16 | AFBC_FORMAT_MOD_SPARSE \
 33			| AFBC_FORMAT_MOD_YTR \
 34	)
 35
 36enum vop_data_format {
 37	VOP_FMT_ARGB8888 = 0,
 38	VOP_FMT_RGB888,
 39	VOP_FMT_RGB565,
 40	VOP_FMT_YUV420SP = 4,
 41	VOP_FMT_YUV422SP,
 42	VOP_FMT_YUV444SP,
 43};
 44
 45struct vop_rect {
 46	int width;
 47	int height;
 48};
 49
 50struct vop_reg {
 51	uint32_t mask;
 52	uint16_t offset;
 53	uint8_t shift;
 54	bool write_mask;
 55	bool relaxed;
 56};
 57
 58struct vop_afbc {
 59	struct vop_reg enable;
 60	struct vop_reg win_sel;
 61	struct vop_reg format;
 62	struct vop_reg rb_swap;
 63	struct vop_reg uv_swap;
 64	struct vop_reg auto_gating_en;
 65	struct vop_reg block_split_en;
 66	struct vop_reg pic_vir_width;
 67	struct vop_reg tile_num;
 68	struct vop_reg hreg_block_split;
 69	struct vop_reg pic_offset;
 70	struct vop_reg pic_size;
 71	struct vop_reg dsp_offset;
 72	struct vop_reg transform_offset;
 73	struct vop_reg hdr_ptr;
 74	struct vop_reg half_block_en;
 75	struct vop_reg xmirror;
 76	struct vop_reg ymirror;
 77	struct vop_reg rotate_270;
 78	struct vop_reg rotate_90;
 79	struct vop_reg rstn;
 80};
 81
 82struct vop_modeset {
 83	struct vop_reg htotal_pw;
 84	struct vop_reg hact_st_end;
 85	struct vop_reg hpost_st_end;
 86	struct vop_reg vtotal_pw;
 87	struct vop_reg vact_st_end;
 88	struct vop_reg vpost_st_end;
 89};
 90
 91struct vop_output {
 92	struct vop_reg pin_pol;
 93	struct vop_reg dp_pin_pol;
 94	struct vop_reg dp_dclk_pol;
 95	struct vop_reg edp_pin_pol;
 96	struct vop_reg edp_dclk_pol;
 97	struct vop_reg hdmi_pin_pol;
 98	struct vop_reg hdmi_dclk_pol;
 99	struct vop_reg mipi_pin_pol;
100	struct vop_reg mipi_dclk_pol;
101	struct vop_reg rgb_pin_pol;
102	struct vop_reg rgb_dclk_pol;
103	struct vop_reg dp_en;
104	struct vop_reg edp_en;
105	struct vop_reg hdmi_en;
106	struct vop_reg mipi_en;
107	struct vop_reg mipi_dual_channel_en;
108	struct vop_reg rgb_en;
109};
110
111struct vop_common {
112	struct vop_reg cfg_done;
113	struct vop_reg dsp_blank;
114	struct vop_reg data_blank;
115	struct vop_reg pre_dither_down;
116	struct vop_reg dither_down_sel;
117	struct vop_reg dither_down_mode;
118	struct vop_reg dither_down_en;
119	struct vop_reg dither_up;
120	struct vop_reg dsp_lut_en;
121	struct vop_reg update_gamma_lut;
122	struct vop_reg lut_buffer_index;
123	struct vop_reg gate_en;
124	struct vop_reg mmu_en;
125	struct vop_reg out_mode;
126	struct vop_reg standby;
127};
128
129struct vop_misc {
130	struct vop_reg global_regdone_en;
131};
132
133struct vop_intr {
134	const int *intrs;
135	uint32_t nintrs;
136
137	struct vop_reg line_flag_num[2];
138	struct vop_reg enable;
139	struct vop_reg clear;
140	struct vop_reg status;
141};
142
143struct vop_scl_extension {
144	struct vop_reg cbcr_vsd_mode;
145	struct vop_reg cbcr_vsu_mode;
146	struct vop_reg cbcr_hsd_mode;
147	struct vop_reg cbcr_ver_scl_mode;
148	struct vop_reg cbcr_hor_scl_mode;
149	struct vop_reg yrgb_vsd_mode;
150	struct vop_reg yrgb_vsu_mode;
151	struct vop_reg yrgb_hsd_mode;
152	struct vop_reg yrgb_ver_scl_mode;
153	struct vop_reg yrgb_hor_scl_mode;
154	struct vop_reg line_load_mode;
155	struct vop_reg cbcr_axi_gather_num;
156	struct vop_reg yrgb_axi_gather_num;
157	struct vop_reg vsd_cbcr_gt2;
158	struct vop_reg vsd_cbcr_gt4;
159	struct vop_reg vsd_yrgb_gt2;
160	struct vop_reg vsd_yrgb_gt4;
161	struct vop_reg bic_coe_sel;
162	struct vop_reg cbcr_axi_gather_en;
163	struct vop_reg yrgb_axi_gather_en;
164	struct vop_reg lb_mode;
165};
166
167struct vop_scl_regs {
168	const struct vop_scl_extension *ext;
169
170	struct vop_reg scale_yrgb_x;
171	struct vop_reg scale_yrgb_y;
172	struct vop_reg scale_cbcr_x;
173	struct vop_reg scale_cbcr_y;
174};
175
176struct vop_yuv2yuv_phy {
177	struct vop_reg y2r_coefficients[NUM_YUV2YUV_COEFFICIENTS];
178};
179
180struct vop_win_phy {
181	const struct vop_scl_regs *scl;
182	const uint32_t *data_formats;
183	uint32_t nformats;
184	const uint64_t *format_modifiers;
185
186	struct vop_reg enable;
187	struct vop_reg gate;
188	struct vop_reg format;
189	struct vop_reg fmt_10;
190	struct vop_reg rb_swap;
191	struct vop_reg uv_swap;
192	struct vop_reg act_info;
193	struct vop_reg dsp_info;
194	struct vop_reg dsp_st;
195	struct vop_reg yrgb_mst;
196	struct vop_reg uv_mst;
197	struct vop_reg yrgb_vir;
198	struct vop_reg uv_vir;
199	struct vop_reg y_mir_en;
200	struct vop_reg x_mir_en;
201
202	struct vop_reg dst_alpha_ctl;
203	struct vop_reg src_alpha_ctl;
204	struct vop_reg alpha_pre_mul;
205	struct vop_reg alpha_mode;
206	struct vop_reg alpha_en;
207	struct vop_reg channel;
208};
209
210struct vop_win_yuv2yuv_data {
211	uint32_t base;
212	const struct vop_yuv2yuv_phy *phy;
213	struct vop_reg y2r_en;
214};
215
216struct vop_win_data {
217	uint32_t base;
218	const struct vop_win_phy *phy;
219	enum drm_plane_type type;
220};
221
222struct vop_data {
223	uint32_t version;
224	const struct vop_intr *intr;
225	const struct vop_common *common;
226	const struct vop_misc *misc;
227	const struct vop_modeset *modeset;
228	const struct vop_output *output;
229	const struct vop_afbc *afbc;
230	const struct vop_win_yuv2yuv_data *win_yuv2yuv;
231	const struct vop_win_data *win;
232	unsigned int win_size;
233	unsigned int lut_size;
234	struct vop_rect max_output;
235
236#define VOP_FEATURE_OUTPUT_RGB10	BIT(0)
237#define VOP_FEATURE_INTERNAL_RGB	BIT(1)
238	u64 feature;
239};
240
241/* interrupt define */
242#define DSP_HOLD_VALID_INTR		(1 << 0)
243#define FS_INTR				(1 << 1)
244#define LINE_FLAG_INTR			(1 << 2)
245#define BUS_ERROR_INTR			(1 << 3)
246
247#define INTR_MASK			(DSP_HOLD_VALID_INTR | FS_INTR | \
248					 LINE_FLAG_INTR | BUS_ERROR_INTR)
249
250#define DSP_HOLD_VALID_INTR_EN(x)	((x) << 4)
251#define FS_INTR_EN(x)			((x) << 5)
252#define LINE_FLAG_INTR_EN(x)		((x) << 6)
253#define BUS_ERROR_INTR_EN(x)		((x) << 7)
254#define DSP_HOLD_VALID_INTR_MASK	(1 << 4)
255#define FS_INTR_MASK			(1 << 5)
256#define LINE_FLAG_INTR_MASK		(1 << 6)
257#define BUS_ERROR_INTR_MASK		(1 << 7)
258
259#define INTR_CLR_SHIFT			8
260#define DSP_HOLD_VALID_INTR_CLR		(1 << (INTR_CLR_SHIFT + 0))
261#define FS_INTR_CLR			(1 << (INTR_CLR_SHIFT + 1))
262#define LINE_FLAG_INTR_CLR		(1 << (INTR_CLR_SHIFT + 2))
263#define BUS_ERROR_INTR_CLR		(1 << (INTR_CLR_SHIFT + 3))
264
265#define DSP_LINE_NUM(x)			(((x) & 0x1fff) << 12)
266#define DSP_LINE_NUM_MASK		(0x1fff << 12)
267
268/* src alpha ctrl define */
269#define SRC_FADING_VALUE(x)		(((x) & 0xff) << 24)
270#define SRC_GLOBAL_ALPHA(x)		(((x) & 0xff) << 16)
271#define SRC_FACTOR_M0(x)		(((x) & 0x7) << 6)
272#define SRC_ALPHA_CAL_M0(x)		(((x) & 0x1) << 5)
273#define SRC_BLEND_M0(x)			(((x) & 0x3) << 3)
274#define SRC_ALPHA_M0(x)			(((x) & 0x1) << 2)
275#define SRC_COLOR_M0(x)			(((x) & 0x1) << 1)
276#define SRC_ALPHA_EN(x)			(((x) & 0x1) << 0)
277/* dst alpha ctrl define */
278#define DST_FACTOR_M0(x)		(((x) & 0x7) << 6)
279
280enum alpha_mode {
281	ALPHA_STRAIGHT,
282	ALPHA_INVERSE,
283};
284
285enum global_blend_mode {
286	ALPHA_GLOBAL,
287	ALPHA_PER_PIX,
288	ALPHA_PER_PIX_GLOBAL,
289};
290
291enum alpha_cal_mode {
292	ALPHA_SATURATION,
293	ALPHA_NO_SATURATION,
294};
295
296enum color_mode {
297	ALPHA_SRC_PRE_MUL,
298	ALPHA_SRC_NO_PRE_MUL,
299};
300
301enum factor_mode {
302	ALPHA_ZERO,
303	ALPHA_ONE,
304	ALPHA_SRC,
305	ALPHA_SRC_INVERSE,
306	ALPHA_SRC_GLOBAL,
307};
308
309enum scale_mode {
310	SCALE_NONE = 0x0,
311	SCALE_UP   = 0x1,
312	SCALE_DOWN = 0x2
313};
314
315enum lb_mode {
316	LB_YUV_3840X5 = 0x0,
317	LB_YUV_2560X8 = 0x1,
318	LB_RGB_3840X2 = 0x2,
319	LB_RGB_2560X4 = 0x3,
320	LB_RGB_1920X5 = 0x4,
321	LB_RGB_1280X8 = 0x5
322};
323
324enum sacle_up_mode {
325	SCALE_UP_BIL = 0x0,
326	SCALE_UP_BIC = 0x1
327};
328
329enum scale_down_mode {
330	SCALE_DOWN_BIL = 0x0,
331	SCALE_DOWN_AVG = 0x1
332};
333
334enum dither_down_mode {
335	RGB888_TO_RGB565 = 0x0,
336	RGB888_TO_RGB666 = 0x1
337};
338
339enum dither_down_mode_sel {
340	DITHER_DOWN_ALLEGRO = 0x0,
341	DITHER_DOWN_FRC = 0x1
342};
343
344enum vop_pol {
345	HSYNC_POSITIVE = 0,
346	VSYNC_POSITIVE = 1,
347	DEN_NEGATIVE   = 2
348};
349
350#define FRAC_16_16(mult, div)    (((mult) << 16) / (div))
351#define SCL_FT_DEFAULT_FIXPOINT_SHIFT	12
352#define SCL_MAX_VSKIPLINES		4
353#define MIN_SCL_FT_AFTER_VSKIP		1
354
355static inline uint16_t scl_cal_scale(int src, int dst, int shift)
356{
357	return ((src * 2 - 3) << (shift - 1)) / (dst - 1);
358}
359
360static inline uint16_t scl_cal_scale2(int src, int dst)
361{
362	return ((src - 1) << 12) / (dst - 1);
363}
364
365#define GET_SCL_FT_BILI_DN(src, dst)	scl_cal_scale(src, dst, 12)
366#define GET_SCL_FT_BILI_UP(src, dst)	scl_cal_scale(src, dst, 16)
367#define GET_SCL_FT_BIC(src, dst)	scl_cal_scale(src, dst, 16)
368
369static inline uint16_t scl_get_bili_dn_vskip(int src_h, int dst_h,
370					     int vskiplines)
371{
372	int act_height;
373
374	act_height = DIV_ROUND_UP(src_h, vskiplines);
375
376	if (act_height == dst_h)
377		return GET_SCL_FT_BILI_DN(src_h, dst_h) / vskiplines;
378
379	return GET_SCL_FT_BILI_DN(act_height, dst_h);
380}
381
382static inline enum scale_mode scl_get_scl_mode(int src, int dst)
383{
384	if (src < dst)
385		return SCALE_UP;
386	else if (src > dst)
387		return SCALE_DOWN;
388
389	return SCALE_NONE;
390}
391
392static inline int scl_get_vskiplines(uint32_t srch, uint32_t dsth)
393{
394	uint32_t vskiplines;
395
396	for (vskiplines = SCL_MAX_VSKIPLINES; vskiplines > 1; vskiplines /= 2)
397		if (srch >= vskiplines * dsth * MIN_SCL_FT_AFTER_VSKIP)
398			break;
399
400	return vskiplines;
401}
402
403static inline int scl_vop_cal_lb_mode(int width, bool is_yuv)
404{
405	int lb_mode;
406
407	if (is_yuv) {
408		if (width > 1280)
409			lb_mode = LB_YUV_3840X5;
410		else
411			lb_mode = LB_YUV_2560X8;
412	} else {
413		if (width > 2560)
414			lb_mode = LB_RGB_3840X2;
415		else if (width > 1920)
416			lb_mode = LB_RGB_2560X4;
417		else
418			lb_mode = LB_RGB_1920X5;
419	}
420
421	return lb_mode;
422}
423
424extern const struct component_ops vop_component_ops;
425#endif /* _ROCKCHIP_DRM_VOP_H */
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