1*913d1be2SStefan Roese /*
2*913d1be2SStefan Roese * Video driver for Marvell Armada XP SoC
3*913d1be2SStefan Roese *
4*913d1be2SStefan Roese * Initialization of LCD interface and setup of SPLASH screen image
5*913d1be2SStefan Roese *
6*913d1be2SStefan Roese * SPDX-License-Identifier: GPL-2.0+
7*913d1be2SStefan Roese */
8*913d1be2SStefan Roese
9*913d1be2SStefan Roese #include <common.h>
10*913d1be2SStefan Roese #include <video_fb.h>
11*913d1be2SStefan Roese #include <linux/mbus.h>
12*913d1be2SStefan Roese #include <asm/io.h>
13*913d1be2SStefan Roese #include <asm/arch/cpu.h>
14*913d1be2SStefan Roese #include <asm/arch/soc.h>
15*913d1be2SStefan Roese
16*913d1be2SStefan Roese #define MVEBU_LCD_WIN_CONTROL(w) (MVEBU_LCD_BASE + 0xf000 + ((w) << 4))
17*913d1be2SStefan Roese #define MVEBU_LCD_WIN_BASE(w) (MVEBU_LCD_BASE + 0xf004 + ((w) << 4))
18*913d1be2SStefan Roese #define MVEBU_LCD_WIN_REMAP(w) (MVEBU_LCD_BASE + 0xf00c + ((w) << 4))
19*913d1be2SStefan Roese
20*913d1be2SStefan Roese #define MVEBU_LCD_CFG_DMA_START_ADDR_0 (MVEBU_LCD_BASE + 0x00cc)
21*913d1be2SStefan Roese #define MVEBU_LCD_CFG_DMA_START_ADDR_1 (MVEBU_LCD_BASE + 0x00dc)
22*913d1be2SStefan Roese
23*913d1be2SStefan Roese #define MVEBU_LCD_CFG_GRA_START_ADDR0 (MVEBU_LCD_BASE + 0x00f4)
24*913d1be2SStefan Roese #define MVEBU_LCD_CFG_GRA_START_ADDR1 (MVEBU_LCD_BASE + 0x00f8)
25*913d1be2SStefan Roese #define MVEBU_LCD_CFG_GRA_PITCH (MVEBU_LCD_BASE + 0x00fc)
26*913d1be2SStefan Roese #define MVEBU_LCD_SPU_GRA_OVSA_HPXL_VLN (MVEBU_LCD_BASE + 0x0100)
27*913d1be2SStefan Roese #define MVEBU_LCD_SPU_GRA_HPXL_VLN (MVEBU_LCD_BASE + 0x0104)
28*913d1be2SStefan Roese #define MVEBU_LCD_SPU_GZM_HPXL_VLN (MVEBU_LCD_BASE + 0x0108)
29*913d1be2SStefan Roese #define MVEBU_LCD_SPU_HWC_OVSA_HPXL_VLN (MVEBU_LCD_BASE + 0x010c)
30*913d1be2SStefan Roese #define MVEBU_LCD_SPU_HWC_HPXL_VLN (MVEBU_LCD_BASE + 0x0110)
31*913d1be2SStefan Roese #define MVEBU_LCD_SPUT_V_H_TOTAL (MVEBU_LCD_BASE + 0x0114)
32*913d1be2SStefan Roese #define MVEBU_LCD_SPU_V_H_ACTIVE (MVEBU_LCD_BASE + 0x0118)
33*913d1be2SStefan Roese #define MVEBU_LCD_SPU_H_PORCH (MVEBU_LCD_BASE + 0x011c)
34*913d1be2SStefan Roese #define MVEBU_LCD_SPU_V_PORCH (MVEBU_LCD_BASE + 0x0120)
35*913d1be2SStefan Roese #define MVEBU_LCD_SPU_BLANKCOLOR (MVEBU_LCD_BASE + 0x0124)
36*913d1be2SStefan Roese #define MVEBU_LCD_SPU_ALPHA_COLOR1 (MVEBU_LCD_BASE + 0x0128)
37*913d1be2SStefan Roese #define MVEBU_LCD_SPU_ALPHA_COLOR2 (MVEBU_LCD_BASE + 0x012c)
38*913d1be2SStefan Roese #define MVEBU_LCD_SPU_COLORKEY_Y (MVEBU_LCD_BASE + 0x0130)
39*913d1be2SStefan Roese #define MVEBU_LCD_SPU_COLORKEY_U (MVEBU_LCD_BASE + 0x0134)
40*913d1be2SStefan Roese #define MVEBU_LCD_SPU_COLORKEY_V (MVEBU_LCD_BASE + 0x0138)
41*913d1be2SStefan Roese #define MVEBU_LCD_CFG_RDREG4F (MVEBU_LCD_BASE + 0x013c)
42*913d1be2SStefan Roese #define MVEBU_LCD_SPU_SPI_RXDATA (MVEBU_LCD_BASE + 0x0140)
43*913d1be2SStefan Roese #define MVEBU_LCD_SPU_ISA_RXDATA (MVEBU_LCD_BASE + 0x0144)
44*913d1be2SStefan Roese #define MVEBU_LCD_SPU_DBG_ISA (MVEBU_LCD_BASE + 0x0148)
45*913d1be2SStefan Roese
46*913d1be2SStefan Roese #define MVEBU_LCD_SPU_HWC_RDDAT (MVEBU_LCD_BASE + 0x0158)
47*913d1be2SStefan Roese #define MVEBU_LCD_SPU_GAMMA_RDDAT (MVEBU_LCD_BASE + 0x015c)
48*913d1be2SStefan Roese #define MVEBU_LCD_SPU_PALETTE_RDDAT (MVEBU_LCD_BASE + 0x0160)
49*913d1be2SStefan Roese #define MVEBU_LCD_SPU_IOPAD_IN (MVEBU_LCD_BASE + 0x0178)
50*913d1be2SStefan Roese #define MVEBU_LCD_FRAME_COUNT (MVEBU_LCD_BASE + 0x017c)
51*913d1be2SStefan Roese #define MVEBU_LCD_SPU_DMA_CTRL0 (MVEBU_LCD_BASE + 0x0190)
52*913d1be2SStefan Roese #define MVEBU_LCD_SPU_DMA_CTRL1 (MVEBU_LCD_BASE + 0x0194)
53*913d1be2SStefan Roese #define MVEBU_LCD_SPU_SRAM_CTRL (MVEBU_LCD_BASE + 0x0198)
54*913d1be2SStefan Roese #define MVEBU_LCD_SPU_SRAM_WRDAT (MVEBU_LCD_BASE + 0x019c)
55*913d1be2SStefan Roese #define MVEBU_LCD_SPU_SRAM_PARA0 (MVEBU_LCD_BASE + 0x01a0)
56*913d1be2SStefan Roese #define MVEBU_LCD_SPU_SRAM_PARA1 (MVEBU_LCD_BASE + 0x01a4)
57*913d1be2SStefan Roese #define MVEBU_LCD_CFG_SCLK_DIV (MVEBU_LCD_BASE + 0x01a8)
58*913d1be2SStefan Roese #define MVEBU_LCD_SPU_CONTRAST (MVEBU_LCD_BASE + 0x01ac)
59*913d1be2SStefan Roese #define MVEBU_LCD_SPU_SATURATION (MVEBU_LCD_BASE + 0x01b0)
60*913d1be2SStefan Roese #define MVEBU_LCD_SPU_CBSH_HUE (MVEBU_LCD_BASE + 0x01b4)
61*913d1be2SStefan Roese #define MVEBU_LCD_SPU_DUMB_CTRL (MVEBU_LCD_BASE + 0x01b8)
62*913d1be2SStefan Roese #define MVEBU_LCD_SPU_IOPAD_CONTROL (MVEBU_LCD_BASE + 0x01bc)
63*913d1be2SStefan Roese #define MVEBU_LCD_SPU_IRQ_ENA_2 (MVEBU_LCD_BASE + 0x01d8)
64*913d1be2SStefan Roese #define MVEBU_LCD_SPU_IRQ_ISR_2 (MVEBU_LCD_BASE + 0x01dc)
65*913d1be2SStefan Roese #define MVEBU_LCD_SPU_IRQ_ENA (MVEBU_LCD_BASE + 0x01c0)
66*913d1be2SStefan Roese #define MVEBU_LCD_SPU_IRQ_ISR (MVEBU_LCD_BASE + 0x01c4)
67*913d1be2SStefan Roese #define MVEBU_LCD_ADLL_CTRL (MVEBU_LCD_BASE + 0x01c8)
68*913d1be2SStefan Roese #define MVEBU_LCD_CLK_DIS (MVEBU_LCD_BASE + 0x01cc)
69*913d1be2SStefan Roese #define MVEBU_LCD_VGA_HVSYNC_DELAY (MVEBU_LCD_BASE + 0x01d4)
70*913d1be2SStefan Roese #define MVEBU_LCD_CLK_CFG_0 (MVEBU_LCD_BASE + 0xf0a0)
71*913d1be2SStefan Roese #define MVEBU_LCD_CLK_CFG_1 (MVEBU_LCD_BASE + 0xf0a4)
72*913d1be2SStefan Roese #define MVEBU_LCD_LVDS_CLK_CFG (MVEBU_LCD_BASE + 0xf0ac)
73*913d1be2SStefan Roese
74*913d1be2SStefan Roese #define MVEBU_LVDS_PADS_REG (MVEBU_SYSTEM_REG_BASE + 0xf0)
75*913d1be2SStefan Roese
76*913d1be2SStefan Roese /* Setup Mbus Bridge Windows for LCD */
mvebu_lcd_conf_mbus_registers(void)77*913d1be2SStefan Roese static void mvebu_lcd_conf_mbus_registers(void)
78*913d1be2SStefan Roese {
79*913d1be2SStefan Roese const struct mbus_dram_target_info *dram;
80*913d1be2SStefan Roese int i;
81*913d1be2SStefan Roese
82*913d1be2SStefan Roese dram = mvebu_mbus_dram_info();
83*913d1be2SStefan Roese
84*913d1be2SStefan Roese /* Disable windows, set size/base/remap to 0 */
85*913d1be2SStefan Roese for (i = 0; i < 6; i++) {
86*913d1be2SStefan Roese writel(0, MVEBU_LCD_WIN_CONTROL(i));
87*913d1be2SStefan Roese writel(0, MVEBU_LCD_WIN_BASE(i));
88*913d1be2SStefan Roese writel(0, MVEBU_LCD_WIN_REMAP(i));
89*913d1be2SStefan Roese }
90*913d1be2SStefan Roese
91*913d1be2SStefan Roese /* Write LCD bridge window registers */
92*913d1be2SStefan Roese for (i = 0; i < dram->num_cs; i++) {
93*913d1be2SStefan Roese const struct mbus_dram_window *cs = dram->cs + i;
94*913d1be2SStefan Roese writel(((cs->size - 1) & 0xffff0000) | (cs->mbus_attr << 8) |
95*913d1be2SStefan Roese (dram->mbus_dram_target_id << 4) | 1,
96*913d1be2SStefan Roese MVEBU_LCD_WIN_CONTROL(i));
97*913d1be2SStefan Roese
98*913d1be2SStefan Roese writel(cs->base & 0xffff0000, MVEBU_LCD_WIN_BASE(i));
99*913d1be2SStefan Roese }
100*913d1be2SStefan Roese }
101*913d1be2SStefan Roese
102*913d1be2SStefan Roese /* Initialize LCD registers */
mvebu_lcd_register_init(struct mvebu_lcd_info * lcd_info)103*913d1be2SStefan Roese int mvebu_lcd_register_init(struct mvebu_lcd_info *lcd_info)
104*913d1be2SStefan Roese {
105*913d1be2SStefan Roese /* Local variable for easier handling */
106*913d1be2SStefan Roese int x = lcd_info->x_res;
107*913d1be2SStefan Roese int y = lcd_info->y_res;
108*913d1be2SStefan Roese u32 val;
109*913d1be2SStefan Roese
110*913d1be2SStefan Roese /* Setup Mbus Bridge Windows */
111*913d1be2SStefan Roese mvebu_lcd_conf_mbus_registers();
112*913d1be2SStefan Roese
113*913d1be2SStefan Roese /*
114*913d1be2SStefan Roese * Set LVDS Pads Control Register
115*913d1be2SStefan Roese * wr 0 182F0 FFE00000
116*913d1be2SStefan Roese */
117*913d1be2SStefan Roese clrbits_le32(MVEBU_LVDS_PADS_REG, 0x1f << 16);
118*913d1be2SStefan Roese
119*913d1be2SStefan Roese /*
120*913d1be2SStefan Roese * Set the LCD_CFG_GRA_START_ADDR0/1 Registers
121*913d1be2SStefan Roese * This is supposed to point to the "physical" memory at memory
122*913d1be2SStefan Roese * end (currently 1GB-64MB but also may be 2GB-64MB).
123*913d1be2SStefan Roese * See also the Window 0 settings!
124*913d1be2SStefan Roese */
125*913d1be2SStefan Roese writel(lcd_info->fb_base, MVEBU_LCD_CFG_GRA_START_ADDR0);
126*913d1be2SStefan Roese writel(lcd_info->fb_base, MVEBU_LCD_CFG_GRA_START_ADDR1);
127*913d1be2SStefan Roese
128*913d1be2SStefan Roese /*
129*913d1be2SStefan Roese * Set the LCD_CFG_GRA_PITCH Register
130*913d1be2SStefan Roese * Bits 31-28: Duty Cycle of Backlight. value/16=High (0x8=Mid Setting)
131*913d1be2SStefan Roese * Bits 25-16: Backlight divider from 32kHz Clock
132*913d1be2SStefan Roese * (here 16=0x10 for 1kHz)
133*913d1be2SStefan Roese * Bits 15-00: Line Length in Bytes
134*913d1be2SStefan Roese * 240*2 (for RGB1555)=480=0x1E0
135*913d1be2SStefan Roese */
136*913d1be2SStefan Roese writel(0x80100000 + 2 * x, MVEBU_LCD_CFG_GRA_PITCH);
137*913d1be2SStefan Roese
138*913d1be2SStefan Roese /*
139*913d1be2SStefan Roese * Set the LCD_SPU_GRA_OVSA_HPXL_VLN Register
140*913d1be2SStefan Roese * Bits 31-16: Vertical start of graphical overlay on screen
141*913d1be2SStefan Roese * Bits 15-00: Horizontal start of graphical overlay on screen
142*913d1be2SStefan Roese */
143*913d1be2SStefan Roese writel(0x00000000, MVEBU_LCD_SPU_GRA_OVSA_HPXL_VLN);
144*913d1be2SStefan Roese
145*913d1be2SStefan Roese /*
146*913d1be2SStefan Roese * Set the LCD_SPU_GRA_HPXL_VLN Register
147*913d1be2SStefan Roese * Bits 31-16: Vertical size of graphical overlay 320=0x140
148*913d1be2SStefan Roese * Bits 15-00: Horizontal size of graphical overlay 240=0xF0
149*913d1be2SStefan Roese * Values before zooming
150*913d1be2SStefan Roese */
151*913d1be2SStefan Roese writel((y << 16) | x, MVEBU_LCD_SPU_GRA_HPXL_VLN);
152*913d1be2SStefan Roese
153*913d1be2SStefan Roese /*
154*913d1be2SStefan Roese * Set the LCD_SPU_GZM_HPXL_VLN Register
155*913d1be2SStefan Roese * Bits 31-16: Vertical size of graphical overlay 320=0x140
156*913d1be2SStefan Roese * Bits 15-00: Horizontal size of graphical overlay 240=0xF0
157*913d1be2SStefan Roese * Values after zooming
158*913d1be2SStefan Roese */
159*913d1be2SStefan Roese writel((y << 16) | x, MVEBU_LCD_SPU_GZM_HPXL_VLN);
160*913d1be2SStefan Roese
161*913d1be2SStefan Roese /*
162*913d1be2SStefan Roese * Set the LCD_SPU_HWC_OVSA_HPXL_VLN Register
163*913d1be2SStefan Roese * Bits 31-16: Vertical position of HW Cursor 320=0x140
164*913d1be2SStefan Roese * Bits 15-00: Horizontal position of HW Cursor 240=0xF0
165*913d1be2SStefan Roese */
166*913d1be2SStefan Roese writel((y << 16) | x, MVEBU_LCD_SPU_HWC_OVSA_HPXL_VLN);
167*913d1be2SStefan Roese
168*913d1be2SStefan Roese /*
169*913d1be2SStefan Roese * Set the LCD_SPU_HWC_OVSA_HPXL_VLN Register
170*913d1be2SStefan Roese * Bits 31-16: Vertical size of HW Cursor
171*913d1be2SStefan Roese * Bits 15-00: Horizontal size of HW Cursor
172*913d1be2SStefan Roese */
173*913d1be2SStefan Roese writel(0x00000000, MVEBU_LCD_SPU_HWC_HPXL_VLN);
174*913d1be2SStefan Roese
175*913d1be2SStefan Roese /*
176*913d1be2SStefan Roese * Set the LCD_SPU_HWC_OVSA_HPXL_VLN Register
177*913d1be2SStefan Roese * Bits 31-16: Screen total vertical lines:
178*913d1be2SStefan Roese * VSYNC = 1
179*913d1be2SStefan Roese * Vertical Front Porch = 2
180*913d1be2SStefan Roese * Vertical Lines = 320
181*913d1be2SStefan Roese * Vertical Back Porch = 2
182*913d1be2SStefan Roese * SUM = 325 = 0x0145
183*913d1be2SStefan Roese * Bits 15-00: Screen total horizontal pixels:
184*913d1be2SStefan Roese * HSYNC = 1
185*913d1be2SStefan Roese * Horizontal Front Porch = 44
186*913d1be2SStefan Roese * Horizontal Lines = 240
187*913d1be2SStefan Roese * Horizontal Back Porch = 2
188*913d1be2SStefan Roese * SUM = 287 = 0x011F
189*913d1be2SStefan Roese * Note: For the display the backporch is between SYNC and
190*913d1be2SStefan Roese * the start of the pixels.
191*913d1be2SStefan Roese * This is not certain for the Marvell (!?)
192*913d1be2SStefan Roese */
193*913d1be2SStefan Roese val = ((y + lcd_info->y_fp + lcd_info->y_bp + 1) << 16) |
194*913d1be2SStefan Roese (x + lcd_info->x_fp + lcd_info->x_bp + 1);
195*913d1be2SStefan Roese writel(val, MVEBU_LCD_SPUT_V_H_TOTAL);
196*913d1be2SStefan Roese
197*913d1be2SStefan Roese /*
198*913d1be2SStefan Roese * Set the LCD_SPU_V_H_ACTIVE Register
199*913d1be2SStefan Roese * Bits 31-16: Screen active vertical lines 320=0x140
200*913d1be2SStefan Roese * Bits 15-00: Screen active horizontakl pixels 240=0x00F0
201*913d1be2SStefan Roese */
202*913d1be2SStefan Roese writel((y << 16) | x, MVEBU_LCD_SPU_V_H_ACTIVE);
203*913d1be2SStefan Roese
204*913d1be2SStefan Roese /*
205*913d1be2SStefan Roese * Set the LCD_SPU_H_PORCH Register
206*913d1be2SStefan Roese * Bits 31-16: Screen horizontal backporch 44=0x2c
207*913d1be2SStefan Roese * Bits 15-00: Screen horizontal frontporch 2=0x02
208*913d1be2SStefan Roese * Note: The terms "front" and "back" for the Marvell seem to be
209*913d1be2SStefan Roese * exactly opposite to the display.
210*913d1be2SStefan Roese */
211*913d1be2SStefan Roese writel((lcd_info->x_fp << 16) | lcd_info->x_bp, MVEBU_LCD_SPU_H_PORCH);
212*913d1be2SStefan Roese
213*913d1be2SStefan Roese /*
214*913d1be2SStefan Roese * Set the LCD_SPU_V_PORCH Register
215*913d1be2SStefan Roese * Bits 31-16: Screen vertical backporch 2=0x02
216*913d1be2SStefan Roese * Bits 15-00: Screen vertical frontporch 2=0x02
217*913d1be2SStefan Roese * Note: The terms "front" and "back" for the Marvell seem to be exactly
218*913d1be2SStefan Roese * opposite to the display.
219*913d1be2SStefan Roese */
220*913d1be2SStefan Roese writel((lcd_info->y_fp << 16) | lcd_info->y_bp, MVEBU_LCD_SPU_V_PORCH);
221*913d1be2SStefan Roese
222*913d1be2SStefan Roese /*
223*913d1be2SStefan Roese * Set the LCD_SPU_BLANKCOLOR Register
224*913d1be2SStefan Roese * This should be black = 0
225*913d1be2SStefan Roese * For tests this is magenta=00FF00FF
226*913d1be2SStefan Roese */
227*913d1be2SStefan Roese writel(0x00FF00FF, MVEBU_LCD_SPU_BLANKCOLOR);
228*913d1be2SStefan Roese
229*913d1be2SStefan Roese /*
230*913d1be2SStefan Roese * Registers in the range of 0x0128 to 0x012C are colors for the cursor
231*913d1be2SStefan Roese * Registers in the range of 0x0130 to 0x0138 are colors for video
232*913d1be2SStefan Roese * color keying
233*913d1be2SStefan Roese */
234*913d1be2SStefan Roese
235*913d1be2SStefan Roese /*
236*913d1be2SStefan Roese * Set the LCD_SPU_RDREG4F Register
237*913d1be2SStefan Roese * Bits 31-12: Reservd
238*913d1be2SStefan Roese * Bit 11: SRAM Wait
239*913d1be2SStefan Roese * Bit 10: Smart display fast TX (must be 1)
240*913d1be2SStefan Roese * Bit 9: DMA Arbitration Video/Graphics overlay: 0=interleaved
241*913d1be2SStefan Roese * Bit 8: FIFO watermark for DMA: 0=disable
242*913d1be2SStefan Roese * Bits 07-00: Empty 8B FIFO entries to trigger DMA, default=0x80
243*913d1be2SStefan Roese */
244*913d1be2SStefan Roese writel(0x00000780, MVEBU_LCD_CFG_RDREG4F);
245*913d1be2SStefan Roese
246*913d1be2SStefan Roese /*
247*913d1be2SStefan Roese * Set the LCD_SPU_DMACTRL 0 Register
248*913d1be2SStefan Roese * Bit 31: Disable overlay blending 1=disable
249*913d1be2SStefan Roese * Bit 30: Gamma correction enable, 0=disable
250*913d1be2SStefan Roese * Bit 29: Video Contrast/Saturation/Hue Adjust enable, 0=disable
251*913d1be2SStefan Roese * Bit 28: Color palette enable, 0=disable
252*913d1be2SStefan Roese * Bit 27: DMA AXI Arbiter, 1=default
253*913d1be2SStefan Roese * Bit 26: HW Cursor 1-bit mode
254*913d1be2SStefan Roese * Bit 25: HW Cursor or 1- or 2-bit mode
255*913d1be2SStefan Roese * Bit 24: HW Cursor enabled, 0=disable
256*913d1be2SStefan Roese * Bits 23-20: Graphics Memory Color Format: 0x1=RGB1555
257*913d1be2SStefan Roese * Bits 19-16: Video Memory Color Format: 0x1=RGB1555
258*913d1be2SStefan Roese * Bit 15: Memory Toggle between frame 0 and 1: 0=disable
259*913d1be2SStefan Roese * Bit 14: Graphics horizontal scaling enable: 0=disable
260*913d1be2SStefan Roese * Bit 13: Graphics test mode: 0=disable
261*913d1be2SStefan Roese * Bit 12: Graphics SWAP R and B: 0=disable
262*913d1be2SStefan Roese * Bit 11: Graphics SWAP U and V: 0=disable
263*913d1be2SStefan Roese * Bit 10: Graphics SWAP Y and U/V: 0=disable
264*913d1be2SStefan Roese * Bit 09: Graphic YUV to RGB Conversion: 0=disable
265*913d1be2SStefan Roese * Bit 08: Graphic Transfer: 1=enable
266*913d1be2SStefan Roese * Bit 07: Memory Toggle: 0=disable
267*913d1be2SStefan Roese * Bit 06: Video horizontal scaling enable: 0=disable
268*913d1be2SStefan Roese * Bit 05: Video test mode: 0=disable
269*913d1be2SStefan Roese * Bit 04: Video SWAP R and B: 0=disable
270*913d1be2SStefan Roese * Bit 03: Video SWAP U and V: 0=disable
271*913d1be2SStefan Roese * Bit 02: Video SWAP Y and U/V: 0=disable
272*913d1be2SStefan Roese * Bit 01: Video YUV to RGB Conversion: 0=disable
273*913d1be2SStefan Roese * Bit 00: Video Transfer: 0=disable
274*913d1be2SStefan Roese */
275*913d1be2SStefan Roese writel(0x88111100, MVEBU_LCD_SPU_DMA_CTRL0);
276*913d1be2SStefan Roese
277*913d1be2SStefan Roese /*
278*913d1be2SStefan Roese * Set the LCD_SPU_DMA_CTRL1 Register
279*913d1be2SStefan Roese * Bit 31: Manual DMA Trigger = 0
280*913d1be2SStefan Roese * Bits 30-28: DMA Trigger Source: 0x2 VSYNC
281*913d1be2SStefan Roese * Bit 28: VSYNC_INV: 0=Rising Edge, 1=Falling Edge
282*913d1be2SStefan Roese * Bits 26-24: Color Key Mode: 0=disable
283*913d1be2SStefan Roese * Bit 23: Fill low bits: 0=fill with zeroes
284*913d1be2SStefan Roese * Bit 22: Reserved
285*913d1be2SStefan Roese * Bit 21: Gated Clock: 0=disable
286*913d1be2SStefan Roese * Bit 20: Power Save enable: 0=disable
287*913d1be2SStefan Roese * Bits 19-18: Reserved
288*913d1be2SStefan Roese * Bits 17-16: Configure Video/Graphic Path: 0x1: Graphic path alpha.
289*913d1be2SStefan Roese * Bits 15-08: Configure Alpha: 0x00.
290*913d1be2SStefan Roese * Bits 07-00: Reserved.
291*913d1be2SStefan Roese */
292*913d1be2SStefan Roese writel(0x20010000, MVEBU_LCD_SPU_DMA_CTRL1);
293*913d1be2SStefan Roese
294*913d1be2SStefan Roese /*
295*913d1be2SStefan Roese * Set the LCD_SPU_SRAM_CTRL Register
296*913d1be2SStefan Roese * Reset to default = 0000C000
297*913d1be2SStefan Roese * Bits 15-14: SRAM control: init=0x3, Read=0, Write=2
298*913d1be2SStefan Roese * Bits 11-08: SRAM address ID: 0=gamma_yr, 1=gammy_ug, 2=gamma_vb,
299*913d1be2SStefan Roese * 3=palette, 15=cursor
300*913d1be2SStefan Roese */
301*913d1be2SStefan Roese writel(0x0000C000, MVEBU_LCD_SPU_SRAM_CTRL);
302*913d1be2SStefan Roese
303*913d1be2SStefan Roese /*
304*913d1be2SStefan Roese * LCD_SPU_SRAM_WRDAT register: 019C
305*913d1be2SStefan Roese * LCD_SPU_SRAM_PARA0 register: 01A0
306*913d1be2SStefan Roese * LCD_SPU_SRAM_PARA1 register: 01A4 - Cursor control/Power settings
307*913d1be2SStefan Roese */
308*913d1be2SStefan Roese writel(0x00000000, MVEBU_LCD_SPU_SRAM_PARA1);
309*913d1be2SStefan Roese
310*913d1be2SStefan Roese
311*913d1be2SStefan Roese /* Clock settings in the at 01A8 and in the range F0A0 see below */
312*913d1be2SStefan Roese
313*913d1be2SStefan Roese /*
314*913d1be2SStefan Roese * Set LCD_SPU_CONTRAST
315*913d1be2SStefan Roese * Bits 31-16: Brightness sign ext. 8-bit value +255 to -255: default=0
316*913d1be2SStefan Roese * Bits 15-00: Contrast sign ext. 8-bit value +255 to -255: default=0
317*913d1be2SStefan Roese */
318*913d1be2SStefan Roese writel(0x00000000, MVEBU_LCD_SPU_CONTRAST);
319*913d1be2SStefan Roese
320*913d1be2SStefan Roese /*
321*913d1be2SStefan Roese * Set LCD_SPU_SATURATION
322*913d1be2SStefan Roese * Bits 31-16: Multiplier signed 4.12 fixed point value
323*913d1be2SStefan Roese * Bits 15-00: Saturation signed 4.12 fixed point value
324*913d1be2SStefan Roese */
325*913d1be2SStefan Roese writel(0x10001000, MVEBU_LCD_SPU_SATURATION);
326*913d1be2SStefan Roese
327*913d1be2SStefan Roese /*
328*913d1be2SStefan Roese * Set LCD_SPU_HUE
329*913d1be2SStefan Roese * Bits 31-16: Sine signed 2.14 fixed point value
330*913d1be2SStefan Roese * Bits 15-00: Cosine signed 2.14 fixed point value
331*913d1be2SStefan Roese */
332*913d1be2SStefan Roese writel(0x00000000, MVEBU_LCD_SPU_CBSH_HUE);
333*913d1be2SStefan Roese
334*913d1be2SStefan Roese /*
335*913d1be2SStefan Roese * Set LCD_SPU_DUMB_CTRL
336*913d1be2SStefan Roese * Bits 31-28: LCD Type: 3=18 bit RGB | 6=24 bit RGB888
337*913d1be2SStefan Roese * Bits 27-12: Reserved
338*913d1be2SStefan Roese * Bit 11: LCD DMA Pipeline Enable: 1=Enable
339*913d1be2SStefan Roese * Bits 10-09: Reserved
340*913d1be2SStefan Roese * Bit 8: LCD GPIO pin (??)
341*913d1be2SStefan Roese * Bit 7: Reverse RGB
342*913d1be2SStefan Roese * Bit 6: Invert composite blank signal DE/EN (??)
343*913d1be2SStefan Roese * Bit 5: Invert composite sync signal
344*913d1be2SStefan Roese * Bit 4: Invert Pixel Valid Enable DE/EN (??)
345*913d1be2SStefan Roese * Bit 3: Invert VSYNC
346*913d1be2SStefan Roese * Bit 2: Invert HSYNC
347*913d1be2SStefan Roese * Bit 1: Invert Pixel Clock
348*913d1be2SStefan Roese * Bit 0: Enable LCD Panel: 1=Enable
349*913d1be2SStefan Roese * Question: Do we have to disable Smart and Dumb LCD
350*913d1be2SStefan Roese * and separately enable LVDS?
351*913d1be2SStefan Roese */
352*913d1be2SStefan Roese writel(0x6000080F, MVEBU_LCD_SPU_DUMB_CTRL);
353*913d1be2SStefan Roese
354*913d1be2SStefan Roese /*
355*913d1be2SStefan Roese * Set LCD_SPU_IOPAD_CTRL
356*913d1be2SStefan Roese * Bits 31-20: Reserved
357*913d1be2SStefan Roese * Bits 19-18: Vertical Interpolation: 0=Disable
358*913d1be2SStefan Roese * Bits 17-16: Reserved
359*913d1be2SStefan Roese * Bit 15: Graphics Vertical Mirror enable: 0=disable
360*913d1be2SStefan Roese * Bit 14: Reserved
361*913d1be2SStefan Roese * Bit 13: Video Vertical Mirror enable: 0=disable
362*913d1be2SStefan Roese * Bit 12: Reserved
363*913d1be2SStefan Roese * Bit 11: Command Vertical Mirror enable: 0=disable
364*913d1be2SStefan Roese * Bit 10: Reserved
365*913d1be2SStefan Roese * Bits 09-08: YUV to RGB Color space conversion: 0 (Not used)
366*913d1be2SStefan Roese * Bits 07-04: AXI Bus Master: 0x4: no crossing of 4k boundary,
367*913d1be2SStefan Roese * 128 Bytes burst
368*913d1be2SStefan Roese * Bits 03-00: LCD pins: ??? 0=24-bit Dump panel ??
369*913d1be2SStefan Roese */
370*913d1be2SStefan Roese writel(0x000000C0, MVEBU_LCD_SPU_IOPAD_CONTROL);
371*913d1be2SStefan Roese
372*913d1be2SStefan Roese /*
373*913d1be2SStefan Roese * Set SUP_IRQ_ENA_2: Disable all interrupts
374*913d1be2SStefan Roese */
375*913d1be2SStefan Roese writel(0x00000000, MVEBU_LCD_SPU_IRQ_ENA_2);
376*913d1be2SStefan Roese
377*913d1be2SStefan Roese /*
378*913d1be2SStefan Roese * Set SUP_IRQ_ENA: Disable all interrupts.
379*913d1be2SStefan Roese */
380*913d1be2SStefan Roese writel(0x00000000, MVEBU_LCD_SPU_IRQ_ENA);
381*913d1be2SStefan Roese
382*913d1be2SStefan Roese /*
383*913d1be2SStefan Roese * Set up ADDL Control Register
384*913d1be2SStefan Roese * Bits 31-29: 0x0 = Fastest Delay Line (default)
385*913d1be2SStefan Roese * 0x3 = Slowest Delay Line (default)
386*913d1be2SStefan Roese * Bit 28: Calibration done status.
387*913d1be2SStefan Roese * Bit 27: Reserved
388*913d1be2SStefan Roese * Bit 26: Set Pixel Clock to ADDL output
389*913d1be2SStefan Roese * Bit 25: Reduce CAL Enable
390*913d1be2SStefan Roese * Bits 24-22: Manual calibration value.
391*913d1be2SStefan Roese * Bit 21: Manual calibration enable.
392*913d1be2SStefan Roese * Bit 20: Restart Auto Cal
393*913d1be2SStefan Roese * Bits 19-16: Calibration Threshold voltage, default= 0x2
394*913d1be2SStefan Roese * Bite 15-14: Reserved
395*913d1be2SStefan Roese * Bits 13-11: Divisor for ADDL Clock: 0x1=/2, 0x3=/8, 0x5=/16
396*913d1be2SStefan Roese * Bit 10: Power Down ADDL module, default = 1!
397*913d1be2SStefan Roese * Bits 09-08: Test point configuration: 0x2=Bias, 0x3=High-z
398*913d1be2SStefan Roese * Bit 07: Reset ADDL
399*913d1be2SStefan Roese * Bit 06: Invert ADLL Clock
400*913d1be2SStefan Roese * Bits 05-00: Delay taps, 0x3F=Half Cycle, 0x00=No delay
401*913d1be2SStefan Roese * Note: ADLL is used for a VGA interface with DAC - not used here
402*913d1be2SStefan Roese */
403*913d1be2SStefan Roese writel(0x00000000, MVEBU_LCD_ADLL_CTRL);
404*913d1be2SStefan Roese
405*913d1be2SStefan Roese /*
406*913d1be2SStefan Roese * Set the LCD_CLK_DIS Register:
407*913d1be2SStefan Roese * Bits 3 and 4 must be 1
408*913d1be2SStefan Roese */
409*913d1be2SStefan Roese writel(0x00000018, MVEBU_LCD_CLK_DIS);
410*913d1be2SStefan Roese
411*913d1be2SStefan Roese /*
412*913d1be2SStefan Roese * Set the LCD_VGA_HSYNC/VSYNC Delay Register:
413*913d1be2SStefan Roese * Bits 03-00: Sets the delay for the HSYNC and VSYNC signals
414*913d1be2SStefan Roese */
415*913d1be2SStefan Roese writel(0x00000000, MVEBU_LCD_VGA_HVSYNC_DELAY);
416*913d1be2SStefan Roese
417*913d1be2SStefan Roese /*
418*913d1be2SStefan Roese * Clock registers
419*913d1be2SStefan Roese * See page 475 in the functional spec.
420*913d1be2SStefan Roese */
421*913d1be2SStefan Roese
422*913d1be2SStefan Roese /* Step 1 and 2: Disable the PLL */
423*913d1be2SStefan Roese
424*913d1be2SStefan Roese /*
425*913d1be2SStefan Roese * Disable PLL, see "LCD Clock Configuration 1 Register" below
426*913d1be2SStefan Roese */
427*913d1be2SStefan Roese writel(0x8FF40007, MVEBU_LCD_CLK_CFG_1);
428*913d1be2SStefan Roese
429*913d1be2SStefan Roese /*
430*913d1be2SStefan Roese * Powerdown, see "LCD Clock Configuration 0 Register" below
431*913d1be2SStefan Roese */
432*913d1be2SStefan Roese writel(0x94000174, MVEBU_LCD_CLK_CFG_0);
433*913d1be2SStefan Roese
434*913d1be2SStefan Roese /*
435*913d1be2SStefan Roese * Set the LCD_CFG_SCLK_DIV Register
436*913d1be2SStefan Roese * This is set fix to 0x40000001 for the LVDS output:
437*913d1be2SStefan Roese * Bits 31-30: SCLCK Source: 0=AXIBus, 1=AHBus, 2=PLLDivider0
438*913d1be2SStefan Roese * Bits 15-01: Clock Divider: Bypass for LVDS=0x0001
439*913d1be2SStefan Roese * See page 475 in section 28.5.
440*913d1be2SStefan Roese */
441*913d1be2SStefan Roese writel(0x80000001, MVEBU_LCD_CFG_SCLK_DIV);
442*913d1be2SStefan Roese
443*913d1be2SStefan Roese /*
444*913d1be2SStefan Roese * Set the LCD Clock Configuration 0 Register:
445*913d1be2SStefan Roese * Bit 31: Powerdown: 0=Power up
446*913d1be2SStefan Roese * Bits 30-29: Reserved
447*913d1be2SStefan Roese * Bits 28-26: PLL_KDIV: This encodes K
448*913d1be2SStefan Roese * K=16 => 0x5
449*913d1be2SStefan Roese * Bits 25-17: PLL_MDIV: This is M-1:
450*913d1be2SStefan Roese * M=1 => 0x0
451*913d1be2SStefan Roese * Bits 16-13: VCO band: 0x1 for 700-920MHz
452*913d1be2SStefan Roese * Bits 12-04: PLL_NDIV: This is N-1 and corresponds to R1_CTRL!
453*913d1be2SStefan Roese * N=28=0x1C => 0x1B
454*913d1be2SStefan Roese * Bits 03-00: R1_CTRL (for N=28 => 0x4)
455*913d1be2SStefan Roese */
456*913d1be2SStefan Roese writel(0x940021B4, MVEBU_LCD_CLK_CFG_0);
457*913d1be2SStefan Roese
458*913d1be2SStefan Roese /*
459*913d1be2SStefan Roese * Set the LCD Clock Configuration 1 Register:
460*913d1be2SStefan Roese * Bits 31-19: Reserved
461*913d1be2SStefan Roese * Bit 18: Select PLL: Core PLL, 1=Dedicated PPL
462*913d1be2SStefan Roese * Bit 17: Clock Output Enable: 0=disable, 1=enable
463*913d1be2SStefan Roese * Bit 16: Select RefClk: 0=RefClk (25MHz), 1=External
464*913d1be2SStefan Roese * Bit 15: Half-Div, Device Clock by DIV+0.5*Half-Dev
465*913d1be2SStefan Roese * Bits 14-13: Reserved
466*913d1be2SStefan Roese * Bits 12-00: PLL Full Divider [Note: Assumed to be the Post-Divider
467*913d1be2SStefan Roese * M' for LVDS=7!]
468*913d1be2SStefan Roese */
469*913d1be2SStefan Roese writel(0x8FF40007, MVEBU_LCD_CLK_CFG_1);
470*913d1be2SStefan Roese
471*913d1be2SStefan Roese /*
472*913d1be2SStefan Roese * Set the LVDS Clock Configuration Register:
473*913d1be2SStefan Roese * Bit 31: Clock Gating for the input clock to the LVDS
474*913d1be2SStefan Roese * Bit 30: LVDS Serializer enable: 1=Enabled
475*913d1be2SStefan Roese * Bits 29-11: Reserved
476*913d1be2SStefan Roese * Bit 11-08: LVDS Clock delay: 0x02 (default): by 2 pixel clock/7
477*913d1be2SStefan Roese * Bits 07-02: Reserved
478*913d1be2SStefan Roese * Bit 01: 24bbp Option: 0=Option_1,1=Option2
479*913d1be2SStefan Roese * Bit 00: 1=24bbp Panel: 0=18bpp Panel
480*913d1be2SStefan Roese * Note: Bits 0 and must be verified with the help of the
481*913d1be2SStefan Roese * Interface/display
482*913d1be2SStefan Roese */
483*913d1be2SStefan Roese writel(0xC0000201, MVEBU_LCD_LVDS_CLK_CFG);
484*913d1be2SStefan Roese
485*913d1be2SStefan Roese /*
486*913d1be2SStefan Roese * Power up PLL (Clock Config 0)
487*913d1be2SStefan Roese */
488*913d1be2SStefan Roese writel(0x140021B4, MVEBU_LCD_CLK_CFG_0);
489*913d1be2SStefan Roese
490*913d1be2SStefan Roese /* wait 10 ms */
491*913d1be2SStefan Roese mdelay(10);
492*913d1be2SStefan Roese
493*913d1be2SStefan Roese /*
494*913d1be2SStefan Roese * Enable PLL (Clock Config 1)
495*913d1be2SStefan Roese */
496*913d1be2SStefan Roese writel(0x8FF60007, MVEBU_LCD_CLK_CFG_1);
497*913d1be2SStefan Roese
498*913d1be2SStefan Roese return 0;
499*913d1be2SStefan Roese }
500*913d1be2SStefan Roese
board_video_init(void)501*913d1be2SStefan Roese int __weak board_video_init(void)
502*913d1be2SStefan Roese {
503*913d1be2SStefan Roese return -1;
504*913d1be2SStefan Roese }
505*913d1be2SStefan Roese
video_hw_init(void)506*913d1be2SStefan Roese void *video_hw_init(void)
507*913d1be2SStefan Roese {
508*913d1be2SStefan Roese static GraphicDevice mvebufb;
509*913d1be2SStefan Roese GraphicDevice *pGD = &mvebufb;
510*913d1be2SStefan Roese u32 val;
511*913d1be2SStefan Roese
512*913d1be2SStefan Roese /*
513*913d1be2SStefan Roese * The board code needs to call mvebu_lcd_register_init()
514*913d1be2SStefan Roese * in its board_video_init() implementation, with the board
515*913d1be2SStefan Roese * specific parameters for its LCD.
516*913d1be2SStefan Roese */
517*913d1be2SStefan Roese if (board_video_init() || !readl(MVEBU_LCD_CFG_GRA_START_ADDR0))
518*913d1be2SStefan Roese return NULL;
519*913d1be2SStefan Roese
520*913d1be2SStefan Roese /* Provide the necessary values for the U-Boot video IF */
521*913d1be2SStefan Roese val = readl(MVEBU_LCD_SPU_V_H_ACTIVE);
522*913d1be2SStefan Roese pGD->winSizeY = val >> 16;
523*913d1be2SStefan Roese pGD->winSizeX = val & 0x0000ffff;
524*913d1be2SStefan Roese pGD->gdfBytesPP = 2;
525*913d1be2SStefan Roese pGD->gdfIndex = GDF_15BIT_555RGB;
526*913d1be2SStefan Roese pGD->frameAdrs = readl(MVEBU_LCD_CFG_GRA_START_ADDR0);
527*913d1be2SStefan Roese
528*913d1be2SStefan Roese debug("LCD: buffer at 0x%08x resolution %dx%d\n", pGD->frameAdrs,
529*913d1be2SStefan Roese pGD->winSizeX, pGD->winSizeY);
530*913d1be2SStefan Roese
531*913d1be2SStefan Roese return pGD;
532*913d1be2SStefan Roese }
533