1 // SPDX-License-Identifier: GPL-2.0
2 #include <linux/module.h>
3 #include <linux/kernel.h>
4 #include <linux/errno.h>
5 #include <linux/string.h>
7 #include <linux/slab.h>
8 #include <linux/delay.h>
10 #include <linux/ioport.h>
11 #include <linux/init.h>
12 #include <linux/pci.h>
13 #include <linux/vmalloc.h>
14 #include <linux/pagemap.h>
15 #include <linux/console.h>
16 #include <linux/platform_device.h>
17 #include <linux/screen_info.h>
20 #include "sm750_accel.h"
21 static inline void write_dpr(struct lynx_accel *accel, int offset, u32 regValue)
23 writel(regValue, accel->dprBase + offset);
26 static inline u32 read_dpr(struct lynx_accel *accel, int offset)
28 return readl(accel->dprBase + offset);
31 static inline void write_dpPort(struct lynx_accel *accel, u32 data)
33 writel(data, accel->dpPortBase);
36 void sm750_hw_de_init(struct lynx_accel *accel)
38 /* setup 2d engine registers */
41 write_dpr(accel, DE_MASKS, 0xFFFFFFFF);
46 clr = DE_STRETCH_FORMAT_PATTERN_XY |
47 DE_STRETCH_FORMAT_PATTERN_Y_MASK |
48 DE_STRETCH_FORMAT_PATTERN_X_MASK |
49 DE_STRETCH_FORMAT_ADDRESSING_MASK |
50 DE_STRETCH_FORMAT_SOURCE_HEIGHT_MASK;
52 /* DE_STRETCH bpp format need be initialized in setMode routine */
53 write_dpr(accel, DE_STRETCH_FORMAT,
54 (read_dpr(accel, DE_STRETCH_FORMAT) & ~clr) | reg);
56 /* disable clipping and transparent */
57 write_dpr(accel, DE_CLIP_TL, 0); /* dpr2c */
58 write_dpr(accel, DE_CLIP_BR, 0); /* dpr30 */
60 write_dpr(accel, DE_COLOR_COMPARE_MASK, 0); /* dpr24 */
61 write_dpr(accel, DE_COLOR_COMPARE, 0);
63 clr = DE_CONTROL_TRANSPARENCY | DE_CONTROL_TRANSPARENCY_MATCH |
64 DE_CONTROL_TRANSPARENCY_SELECT;
67 write_dpr(accel, DE_CONTROL, read_dpr(accel, DE_CONTROL) & ~clr);
71 * set2dformat only be called from setmode functions
72 * but if you need dual framebuffer driver,need call set2dformat
73 * every time you use 2d function
76 void sm750_hw_set2dformat(struct lynx_accel *accel, int fmt)
80 /* fmt=0,1,2 for 8,16,32,bpp on sm718/750/502 */
81 reg = read_dpr(accel, DE_STRETCH_FORMAT);
82 reg &= ~DE_STRETCH_FORMAT_PIXEL_FORMAT_MASK;
83 reg |= ((fmt << DE_STRETCH_FORMAT_PIXEL_FORMAT_SHIFT) &
84 DE_STRETCH_FORMAT_PIXEL_FORMAT_MASK);
85 write_dpr(accel, DE_STRETCH_FORMAT, reg);
88 int sm750_hw_fillrect(struct lynx_accel *accel,
89 u32 base, u32 pitch, u32 Bpp,
90 u32 x, u32 y, u32 width, u32 height,
95 if (accel->de_wait() != 0) {
97 * int time wait and always busy,seems hardware
100 pr_debug("De engine always busy\n");
104 write_dpr(accel, DE_WINDOW_DESTINATION_BASE, base); /* dpr40 */
105 write_dpr(accel, DE_PITCH,
106 ((pitch / Bpp << DE_PITCH_DESTINATION_SHIFT) &
107 DE_PITCH_DESTINATION_MASK) |
108 (pitch / Bpp & DE_PITCH_SOURCE_MASK)); /* dpr10 */
110 write_dpr(accel, DE_WINDOW_WIDTH,
111 ((pitch / Bpp << DE_WINDOW_WIDTH_DST_SHIFT) &
112 DE_WINDOW_WIDTH_DST_MASK) |
113 (pitch / Bpp & DE_WINDOW_WIDTH_SRC_MASK)); /* dpr44 */
115 write_dpr(accel, DE_FOREGROUND, color); /* DPR14 */
117 write_dpr(accel, DE_DESTINATION,
118 ((x << DE_DESTINATION_X_SHIFT) & DE_DESTINATION_X_MASK) |
119 (y & DE_DESTINATION_Y_MASK)); /* dpr4 */
121 write_dpr(accel, DE_DIMENSION,
122 ((width << DE_DIMENSION_X_SHIFT) & DE_DIMENSION_X_MASK) |
123 (height & DE_DIMENSION_Y_ET_MASK)); /* dpr8 */
125 deCtrl = DE_CONTROL_STATUS | DE_CONTROL_LAST_PIXEL |
126 DE_CONTROL_COMMAND_RECTANGLE_FILL | DE_CONTROL_ROP_SELECT |
127 (rop & DE_CONTROL_ROP_MASK); /* dpr0xc */
129 write_dpr(accel, DE_CONTROL, deCtrl);
133 int sm750_hw_copyarea(
134 struct lynx_accel *accel,
135 unsigned int sBase, /* Address of source: offset in frame buffer */
136 unsigned int sPitch, /* Pitch value of source surface in BYTE */
138 unsigned int sy, /* Starting coordinate of source surface */
139 unsigned int dBase, /* Address of destination: offset in frame buffer */
140 unsigned int dPitch, /* Pitch value of destination surface in BYTE */
141 unsigned int Bpp, /* Color depth of destination surface */
143 unsigned int dy, /* Starting coordinate of destination surface */
145 unsigned int height, /* width and height of rectangle in pixel value */
146 unsigned int rop2) /* ROP value */
148 unsigned int nDirection, de_ctrl;
150 nDirection = LEFT_TO_RIGHT;
151 /* Direction of ROP2 operation: 1 = Left to Right, (-1) = Right to Left */
154 /* If source and destination are the same surface, need to check for overlay cases */
155 if (sBase == dBase && sPitch == dPitch) {
156 /* Determine direction of operation */
168 nDirection = BOTTOM_TO_TOP;
169 } else if (sy > dy) {
180 nDirection = TOP_TO_BOTTOM;
185 /* +------+---+------+
190 * +------+---+------+
193 nDirection = RIGHT_TO_LEFT;
197 /* +------+---+------+
202 * +------+---+------+
205 nDirection = LEFT_TO_RIGHT;
210 if ((nDirection == BOTTOM_TO_TOP) || (nDirection == RIGHT_TO_LEFT)) {
219 * DE_FOREGROUND are DE_BACKGROUND are don't care.
220 * DE_COLOR_COMPARE and DE_COLOR_COMPARE_MAKS
221 * are set by set deSetTransparency().
226 * It is an address offset (128 bit aligned)
227 * from the beginning of frame buffer.
229 write_dpr(accel, DE_WINDOW_SOURCE_BASE, sBase); /* dpr40 */
232 * 2D Destination Base.
233 * It is an address offset (128 bit aligned)
234 * from the beginning of frame buffer.
236 write_dpr(accel, DE_WINDOW_DESTINATION_BASE, dBase); /* dpr44 */
239 * Program pitch (distance between the 1st points of two adjacent lines).
240 * Note that input pitch is BYTE value, but the 2D Pitch register uses
241 * pixel values. Need Byte to pixel conversion.
243 write_dpr(accel, DE_PITCH,
244 ((dPitch / Bpp << DE_PITCH_DESTINATION_SHIFT) &
245 DE_PITCH_DESTINATION_MASK) |
246 (sPitch / Bpp & DE_PITCH_SOURCE_MASK)); /* dpr10 */
249 * Screen Window width in Pixels.
250 * 2D engine uses this value to calculate the linear address in frame buffer
253 write_dpr(accel, DE_WINDOW_WIDTH,
254 ((dPitch / Bpp << DE_WINDOW_WIDTH_DST_SHIFT) &
255 DE_WINDOW_WIDTH_DST_MASK) |
256 (sPitch / Bpp & DE_WINDOW_WIDTH_SRC_MASK)); /* dpr3c */
258 if (accel->de_wait() != 0)
261 write_dpr(accel, DE_SOURCE,
262 ((sx << DE_SOURCE_X_K1_SHIFT) & DE_SOURCE_X_K1_MASK) |
263 (sy & DE_SOURCE_Y_K2_MASK)); /* dpr0 */
264 write_dpr(accel, DE_DESTINATION,
265 ((dx << DE_DESTINATION_X_SHIFT) & DE_DESTINATION_X_MASK) |
266 (dy & DE_DESTINATION_Y_MASK)); /* dpr04 */
267 write_dpr(accel, DE_DIMENSION,
268 ((width << DE_DIMENSION_X_SHIFT) & DE_DIMENSION_X_MASK) |
269 (height & DE_DIMENSION_Y_ET_MASK)); /* dpr08 */
271 de_ctrl = (rop2 & DE_CONTROL_ROP_MASK) | DE_CONTROL_ROP_SELECT |
272 ((nDirection == RIGHT_TO_LEFT) ? DE_CONTROL_DIRECTION : 0) |
273 DE_CONTROL_COMMAND_BITBLT | DE_CONTROL_STATUS;
274 write_dpr(accel, DE_CONTROL, de_ctrl); /* dpr0c */
279 static unsigned int deGetTransparency(struct lynx_accel *accel)
281 unsigned int de_ctrl;
283 de_ctrl = read_dpr(accel, DE_CONTROL);
285 de_ctrl &= (DE_CONTROL_TRANSPARENCY_MATCH |
286 DE_CONTROL_TRANSPARENCY_SELECT | DE_CONTROL_TRANSPARENCY);
291 int sm750_hw_imageblit(struct lynx_accel *accel,
292 const char *pSrcbuf, /* pointer to start of source buffer in system memory */
293 u32 srcDelta, /* Pitch value (in bytes) of the source buffer, +ive means top down and -ive mean button up */
294 u32 startBit, /* Mono data can start at any bit in a byte, this value should be 0 to 7 */
295 u32 dBase, /* Address of destination: offset in frame buffer */
296 u32 dPitch, /* Pitch value of destination surface in BYTE */
297 u32 bytePerPixel, /* Color depth of destination surface */
299 u32 dy, /* Starting coordinate of destination surface */
301 u32 height, /* width and height of rectangle in pixel value */
302 u32 fColor, /* Foreground color (corresponding to a 1 in the monochrome data */
303 u32 bColor, /* Background color (corresponding to a 0 in the monochrome data */
304 u32 rop2) /* ROP value */
306 unsigned int ulBytesPerScan;
307 unsigned int ul4BytesPerScan;
308 unsigned int ulBytesRemain;
309 unsigned int de_ctrl = 0;
310 unsigned char ajRemain[4];
313 startBit &= 7; /* Just make sure the start bit is within legal range */
314 ulBytesPerScan = (width + startBit + 7) / 8;
315 ul4BytesPerScan = ulBytesPerScan & ~3;
316 ulBytesRemain = ulBytesPerScan & 3;
318 if (accel->de_wait() != 0)
323 * Use 0 for HOST Blt.
325 write_dpr(accel, DE_WINDOW_SOURCE_BASE, 0);
327 /* 2D Destination Base.
328 * It is an address offset (128 bit aligned)
329 * from the beginning of frame buffer.
331 write_dpr(accel, DE_WINDOW_DESTINATION_BASE, dBase);
334 * Program pitch (distance between the 1st points of two adjacent
335 * lines). Note that input pitch is BYTE value, but the 2D Pitch
336 * register uses pixel values. Need Byte to pixel conversion.
338 write_dpr(accel, DE_PITCH,
339 ((dPitch / bytePerPixel << DE_PITCH_DESTINATION_SHIFT) &
340 DE_PITCH_DESTINATION_MASK) |
341 (dPitch / bytePerPixel & DE_PITCH_SOURCE_MASK)); /* dpr10 */
344 * Screen Window width in Pixels.
345 * 2D engine uses this value to calculate the linear address
346 * in frame buffer for a given point.
348 write_dpr(accel, DE_WINDOW_WIDTH,
349 ((dPitch / bytePerPixel << DE_WINDOW_WIDTH_DST_SHIFT) &
350 DE_WINDOW_WIDTH_DST_MASK) |
351 (dPitch / bytePerPixel & DE_WINDOW_WIDTH_SRC_MASK));
354 * Note: For 2D Source in Host Write, only X_K1_MONO field is needed,
355 * and Y_K2 field is not used.
356 * For mono bitmap, use startBit for X_K1.
358 write_dpr(accel, DE_SOURCE,
359 (startBit << DE_SOURCE_X_K1_SHIFT) &
360 DE_SOURCE_X_K1_MONO_MASK); /* dpr00 */
362 write_dpr(accel, DE_DESTINATION,
363 ((dx << DE_DESTINATION_X_SHIFT) & DE_DESTINATION_X_MASK) |
364 (dy & DE_DESTINATION_Y_MASK)); /* dpr04 */
366 write_dpr(accel, DE_DIMENSION,
367 ((width << DE_DIMENSION_X_SHIFT) & DE_DIMENSION_X_MASK) |
368 (height & DE_DIMENSION_Y_ET_MASK)); /* dpr08 */
370 write_dpr(accel, DE_FOREGROUND, fColor);
371 write_dpr(accel, DE_BACKGROUND, bColor);
373 de_ctrl = (rop2 & DE_CONTROL_ROP_MASK) |
374 DE_CONTROL_ROP_SELECT | DE_CONTROL_COMMAND_HOST_WRITE |
375 DE_CONTROL_HOST | DE_CONTROL_STATUS;
377 write_dpr(accel, DE_CONTROL, de_ctrl | deGetTransparency(accel));
379 /* Write MONO data (line by line) to 2D Engine data port */
380 for (i = 0; i < height; i++) {
381 /* For each line, send the data in chunks of 4 bytes */
382 for (j = 0; j < (ul4BytesPerScan / 4); j++)
383 write_dpPort(accel, *(unsigned int *)(pSrcbuf + (j * 4)));
386 memcpy(ajRemain, pSrcbuf+ul4BytesPerScan, ulBytesRemain);
387 write_dpPort(accel, *(unsigned int *)ajRemain);