1 /*
2  * Copyright 2020 Advanced Micro Devices, Inc.
3  *
4  * Permission is hereby granted, free of charge, to any person obtaining a
5  * copy of this software and associated documentation files (the "Software"),
6  * to deal in the Software without restriction, including without limitation
7  * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8  * and/or sell copies of the Software, and to permit persons to whom the
9  * Software is furnished to do so, subject to the following conditions:
10  *
11  * The above copyright notice and this permission notice shall be included in
12  * all copies or substantial portions of the Software.
13  *
14  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
15  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
16  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
17  * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
18  * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
19  * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
20  * OTHER DEALINGS IN THE SOFTWARE.
21  *
22  * Authors: AMD
23  *
24  */
25 
26 
27 #include "reg_helper.h"
28 #include "resource.h"
29 #include "mcif_wb.h"
30 #include "dcn30_mmhubbub.h"
31 
32 
33 #define REG(reg)\
34 	mcif_wb30->mcif_wb_regs->reg
35 
36 #define CTX \
37 	mcif_wb30->base.ctx
38 
39 #undef FN
40 #define FN(reg_name, field_name) \
41 	mcif_wb30->mcif_wb_shift->field_name, mcif_wb30->mcif_wb_mask->field_name
42 
43 #define MCIF_ADDR(addr) (((unsigned long long)addr & 0xffffffffff) + 0xFE) >> 8
44 #define MCIF_ADDR_HIGH(addr) (unsigned long long)addr >> 40
45 
46 /* wbif programming guide:
47  * 1. set up wbif parameter:
48  *    unsigned long long   luma_address[4];       //4 frame buffer
49  *    unsigned long long   chroma_address[4];
50  *    unsigned int	   luma_pitch;
51  *    unsigned int	   chroma_pitch;
52  *    unsigned int         warmup_pitch=0x10;     //256B align, the page size is 4KB when it is 0x10
53  *    unsigned int	   slice_lines;           //slice size
54  *    unsigned int         time_per_pixel;        // time per pixel, in ns
55  *    unsigned int         arbitration_slice;     // 0: 2048 bytes 1: 4096 bytes 2: 8192 Bytes
56  *    unsigned int         max_scaled_time;       // used for QOS generation
57  *    unsigned int         swlock=0x0;
58  *    unsigned int         cli_watermark[4];      //4 group urgent watermark
59  *    unsigned int         pstate_watermark[4];   //4 group pstate watermark
60  *    unsigned int         sw_int_en;             // Software interrupt enable, frame end and overflow
61  *    unsigned int         sw_slice_int_en;       // slice end interrupt enable
62  *    unsigned int         sw_overrun_int_en;     // overrun error interrupt enable
63  *    unsigned int         vce_int_en;            // VCE interrupt enable, frame end and overflow
64  *    unsigned int         vce_slice_int_en;      // VCE slice end interrupt enable, frame end and overflow
65  *
66  * 2. configure wbif register
67  *    a. call mmhubbub_config_wbif()
68  *
69  * 3. Enable wbif
70  *    call set_wbif_bufmgr_enable();
71  *
72  * 4. wbif_dump_status(), option, for debug purpose
73  *    the bufmgr status can show the progress of write back, can be used for debug purpose
74  */
75 
76 static void mmhubbub3_warmup_mcif(struct mcif_wb *mcif_wb,
77 		struct mcif_warmup_params *params)
78 {
79 	struct dcn30_mmhubbub *mcif_wb30 = TO_DCN30_MMHUBBUB(mcif_wb);
80 	union large_integer start_address_shift = {.quad_part = params->start_address.quad_part >> 5};
81 
82 	/* Set base address and region size for warmup */
83 	REG_SET(MMHUBBUB_WARMUP_BASE_ADDR_HIGH, 0, MMHUBBUB_WARMUP_BASE_ADDR_HIGH, start_address_shift.high_part);
84 	REG_SET(MMHUBBUB_WARMUP_BASE_ADDR_LOW, 0, MMHUBBUB_WARMUP_BASE_ADDR_LOW, start_address_shift.low_part);
85 	REG_SET(MMHUBBUB_WARMUP_ADDR_REGION, 0, MMHUBBUB_WARMUP_ADDR_REGION, params->region_size >> 5);
86 //	REG_SET(MMHUBBUB_WARMUP_P_VMID, 0, MMHUBBUB_WARMUP_P_VMID, params->p_vmid);
87 
88 	/* Set address increment and enable warmup */
89 	REG_SET_3(MMHUBBUB_WARMUP_CONTROL_STATUS, 0, MMHUBBUB_WARMUP_EN, true,
90 			MMHUBBUB_WARMUP_SW_INT_EN, true,
91 			MMHUBBUB_WARMUP_INC_ADDR, params->address_increment >> 5);
92 
93 	/* Wait for an interrupt to signal warmup is completed */
94 	REG_WAIT(MMHUBBUB_WARMUP_CONTROL_STATUS, MMHUBBUB_WARMUP_SW_INT_STATUS, 1, 20, 100);
95 
96 	/* Acknowledge interrupt */
97 	REG_UPDATE(MMHUBBUB_WARMUP_CONTROL_STATUS, MMHUBBUB_WARMUP_SW_INT_ACK, 1);
98 
99 	/* Disable warmup */
100 	REG_UPDATE(MMHUBBUB_WARMUP_CONTROL_STATUS, MMHUBBUB_WARMUP_EN, false);
101 }
102 
103 void mmhubbub3_config_mcif_buf(struct mcif_wb *mcif_wb,
104 		struct mcif_buf_params *params,
105 		unsigned int dest_height)
106 {
107 	struct dcn30_mmhubbub *mcif_wb30 = TO_DCN30_MMHUBBUB(mcif_wb);
108 
109 	/* buffer address for packing mode or Luma in planar mode */
110 	REG_UPDATE(MCIF_WB_BUF_1_ADDR_Y, MCIF_WB_BUF_1_ADDR_Y, MCIF_ADDR(params->luma_address[0]));
111 	REG_UPDATE(MCIF_WB_BUF_1_ADDR_Y_HIGH, MCIF_WB_BUF_1_ADDR_Y_HIGH, MCIF_ADDR_HIGH(params->luma_address[0]));
112 
113 	/* buffer address for Chroma in planar mode (unused in packing mode) */
114 	REG_UPDATE(MCIF_WB_BUF_1_ADDR_C, MCIF_WB_BUF_1_ADDR_C, MCIF_ADDR(params->chroma_address[0]));
115 	REG_UPDATE(MCIF_WB_BUF_1_ADDR_C_HIGH, MCIF_WB_BUF_1_ADDR_C_HIGH, MCIF_ADDR_HIGH(params->chroma_address[0]));
116 
117 	/* buffer address for packing mode or Luma in planar mode */
118 	REG_UPDATE(MCIF_WB_BUF_2_ADDR_Y, MCIF_WB_BUF_2_ADDR_Y, MCIF_ADDR(params->luma_address[1]));
119 	REG_UPDATE(MCIF_WB_BUF_2_ADDR_Y_HIGH, MCIF_WB_BUF_2_ADDR_Y_HIGH, MCIF_ADDR_HIGH(params->luma_address[1]));
120 
121 	/* buffer address for Chroma in planar mode (unused in packing mode) */
122 	REG_UPDATE(MCIF_WB_BUF_2_ADDR_C, MCIF_WB_BUF_2_ADDR_C, MCIF_ADDR(params->chroma_address[1]));
123 	REG_UPDATE(MCIF_WB_BUF_2_ADDR_C_HIGH, MCIF_WB_BUF_2_ADDR_C_HIGH, MCIF_ADDR_HIGH(params->chroma_address[1]));
124 
125 	/* buffer address for packing mode or Luma in planar mode */
126 	REG_UPDATE(MCIF_WB_BUF_3_ADDR_Y, MCIF_WB_BUF_3_ADDR_Y, MCIF_ADDR(params->luma_address[2]));
127 	REG_UPDATE(MCIF_WB_BUF_3_ADDR_Y_HIGH, MCIF_WB_BUF_3_ADDR_Y_HIGH, MCIF_ADDR_HIGH(params->luma_address[2]));
128 
129 	/* buffer address for Chroma in planar mode (unused in packing mode) */
130 	REG_UPDATE(MCIF_WB_BUF_3_ADDR_C, MCIF_WB_BUF_3_ADDR_C, MCIF_ADDR(params->chroma_address[2]));
131 	REG_UPDATE(MCIF_WB_BUF_3_ADDR_C_HIGH, MCIF_WB_BUF_3_ADDR_C_HIGH, MCIF_ADDR_HIGH(params->chroma_address[2]));
132 
133 	/* buffer address for packing mode or Luma in planar mode */
134 	REG_UPDATE(MCIF_WB_BUF_4_ADDR_Y, MCIF_WB_BUF_4_ADDR_Y, MCIF_ADDR(params->luma_address[3]));
135 	REG_UPDATE(MCIF_WB_BUF_4_ADDR_Y_HIGH, MCIF_WB_BUF_4_ADDR_Y_HIGH, MCIF_ADDR_HIGH(params->luma_address[3]));
136 
137 	/* buffer address for Chroma in planar mode (unused in packing mode) */
138 	REG_UPDATE(MCIF_WB_BUF_4_ADDR_C, MCIF_WB_BUF_4_ADDR_C, MCIF_ADDR(params->chroma_address[3]));
139 	REG_UPDATE(MCIF_WB_BUF_4_ADDR_C_HIGH, MCIF_WB_BUF_4_ADDR_C_HIGH, MCIF_ADDR_HIGH(params->chroma_address[3]));
140 
141 	/* setup luma & chroma size
142 	 * should be enough to contain a whole frame Luma data,
143 	 * the programmed value is frame buffer size [27:8], 256-byte aligned
144 	 */
145 	REG_UPDATE(MCIF_WB_BUF_LUMA_SIZE, MCIF_WB_BUF_LUMA_SIZE, (params->luma_pitch>>8) * dest_height);
146 	REG_UPDATE(MCIF_WB_BUF_CHROMA_SIZE, MCIF_WB_BUF_CHROMA_SIZE, (params->chroma_pitch>>8) * dest_height);
147 
148 	/* enable address fence */
149 	REG_UPDATE(MCIF_WB_BUFMGR_SW_CONTROL, MCIF_WB_BUF_ADDR_FENCE_EN, 1);
150 
151 	/* setup pitch, the programmed value is [15:8], 256B align */
152 	REG_UPDATE_2(MCIF_WB_BUF_PITCH, MCIF_WB_BUF_LUMA_PITCH, params->luma_pitch >> 8,
153 			MCIF_WB_BUF_CHROMA_PITCH, params->chroma_pitch >> 8);
154 }
155 
156 static void mmhubbub3_config_mcif_arb(struct mcif_wb *mcif_wb,
157 		struct mcif_arb_params *params)
158 {
159 	struct dcn30_mmhubbub *mcif_wb30 = TO_DCN30_MMHUBBUB(mcif_wb);
160 
161 	/* Programmed by the video driver based on the CRTC timing (for DWB) */
162 	REG_UPDATE(MCIF_WB_ARBITRATION_CONTROL, MCIF_WB_TIME_PER_PIXEL, params->time_per_pixel);
163 
164 	/* Programming dwb watermark */
165 	/* Watermark to generate urgent in MCIF_WB_CLI, value is determined by MCIF_WB_CLI_WATERMARK_MASK. */
166 	/* Program in ns. A formula will be provided in the pseudo code to calculate the value. */
167 	REG_UPDATE(MCIF_WB_WATERMARK, MCIF_WB_CLI_WATERMARK_MASK, 0x0);
168 	/* urgent_watermarkA */
169 	REG_UPDATE(MCIF_WB_WATERMARK, MCIF_WB_CLI_WATERMARK,  params->cli_watermark[0]);
170 	REG_UPDATE(MCIF_WB_WATERMARK, MCIF_WB_CLI_WATERMARK_MASK, 0x1);
171 	/* urgent_watermarkB */
172 	REG_UPDATE(MCIF_WB_WATERMARK, MCIF_WB_CLI_WATERMARK,  params->cli_watermark[1]);
173 	REG_UPDATE(MCIF_WB_WATERMARK, MCIF_WB_CLI_WATERMARK_MASK, 0x2);
174 	/* urgent_watermarkC */
175 	REG_UPDATE(MCIF_WB_WATERMARK, MCIF_WB_CLI_WATERMARK,  params->cli_watermark[2]);
176 	REG_UPDATE(MCIF_WB_WATERMARK, MCIF_WB_CLI_WATERMARK_MASK, 0x3);
177 	/* urgent_watermarkD */
178 	REG_UPDATE(MCIF_WB_WATERMARK, MCIF_WB_CLI_WATERMARK,  params->cli_watermark[3]);
179 
180 	/* Programming nb pstate watermark */
181 	/* nbp_state_change_watermarkA */
182 	REG_UPDATE(MCIF_WB_NB_PSTATE_LATENCY_WATERMARK, NB_PSTATE_CHANGE_WATERMARK_MASK, 0x0);
183 	REG_UPDATE(MCIF_WB_NB_PSTATE_LATENCY_WATERMARK,
184 			NB_PSTATE_CHANGE_REFRESH_WATERMARK, params->pstate_watermark[0]);
185 	/* nbp_state_change_watermarkB */
186 	REG_UPDATE(MCIF_WB_NB_PSTATE_LATENCY_WATERMARK, NB_PSTATE_CHANGE_WATERMARK_MASK, 0x1);
187 	REG_UPDATE(MCIF_WB_NB_PSTATE_LATENCY_WATERMARK,
188 			NB_PSTATE_CHANGE_REFRESH_WATERMARK, params->pstate_watermark[1]);
189 	/* nbp_state_change_watermarkC */
190 	REG_UPDATE(MCIF_WB_NB_PSTATE_LATENCY_WATERMARK, NB_PSTATE_CHANGE_WATERMARK_MASK, 0x2);
191 	REG_UPDATE(MCIF_WB_NB_PSTATE_LATENCY_WATERMARK,
192 			NB_PSTATE_CHANGE_REFRESH_WATERMARK, params->pstate_watermark[2]);
193 	/* nbp_state_change_watermarkD */
194 	REG_UPDATE(MCIF_WB_NB_PSTATE_LATENCY_WATERMARK, NB_PSTATE_CHANGE_WATERMARK_MASK, 0x3);
195 	REG_UPDATE(MCIF_WB_NB_PSTATE_LATENCY_WATERMARK,
196 			NB_PSTATE_CHANGE_REFRESH_WATERMARK, params->pstate_watermark[3]);
197 
198 	/* dram_speed_change_duration */
199 	REG_UPDATE(MCIF_WB_DRAM_SPEED_CHANGE_DURATION_VBI,
200 			MCIF_WB_DRAM_SPEED_CHANGE_DURATION_VBI, params->dram_speed_change_duration);
201 
202 	/* max_scaled_time */
203 	REG_UPDATE(MULTI_LEVEL_QOS_CTRL, MAX_SCALED_TIME_TO_URGENT, params->max_scaled_time);
204 
205 	/* slice_lines */
206 	REG_UPDATE(MCIF_WB_BUFMGR_VCE_CONTROL, MCIF_WB_BUFMGR_SLICE_SIZE, params->slice_lines-1);
207 
208 	/* Set arbitration unit for Luma/Chroma */
209 	/* arb_unit=2 should be chosen for more efficiency */
210 	/* Arbitration size, 0: 2048 bytes 1: 4096 bytes 2: 8192 Bytes */
211 	REG_UPDATE(MCIF_WB_ARBITRATION_CONTROL, MCIF_WB_CLIENT_ARBITRATION_SLICE,  params->arbitration_slice);
212 }
213 
214 const struct mcif_wb_funcs dcn30_mmhubbub_funcs = {
215 	.warmup_mcif		= mmhubbub3_warmup_mcif,
216 	.enable_mcif		= mmhubbub2_enable_mcif,
217 	.disable_mcif		= mmhubbub2_disable_mcif,
218 	.config_mcif_buf	= mmhubbub3_config_mcif_buf,
219 	.config_mcif_arb	= mmhubbub3_config_mcif_arb,
220 	.config_mcif_irq	= mmhubbub2_config_mcif_irq,
221 	.dump_frame		= mcifwb2_dump_frame,
222 };
223 
224 void dcn30_mmhubbub_construct(struct dcn30_mmhubbub *mcif_wb30,
225 		struct dc_context *ctx,
226 		const struct dcn30_mmhubbub_registers *mcif_wb_regs,
227 		const struct dcn30_mmhubbub_shift *mcif_wb_shift,
228 		const struct dcn30_mmhubbub_mask *mcif_wb_mask,
229 		int inst)
230 {
231 	mcif_wb30->base.ctx = ctx;
232 
233 	mcif_wb30->base.inst = inst;
234 	mcif_wb30->base.funcs = &dcn30_mmhubbub_funcs;
235 
236 	mcif_wb30->mcif_wb_regs = mcif_wb_regs;
237 	mcif_wb30->mcif_wb_shift = mcif_wb_shift;
238 	mcif_wb30->mcif_wb_mask = mcif_wb_mask;
239 }
240