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authorImre Deak <imre.deak@solidboot.com>2007-07-17 07:05:57 -0400
committerLinus Torvalds <torvalds@woody.linux-foundation.org>2007-07-17 13:23:13 -0400
commit7a055fc222c239eedd7d27684e70e812550c83f0 (patch)
tree7aa35c1d9fa59574d30439783986c9bce4423434 /drivers
parent569755c706f0f94409edd2ae60b9878cb420844f (diff)
OMAP: add TI OMAP2 internal display controller support.
- Adds Texas Instruments OMAP2 processor series (OMAP2420/2430) internal display controller interface support. Signed-off-by: Trilok Soni <soni.trilok@gmail.com> Cc: Tony Lindgren <tony@atomide.com> Cc: "Antonino A. Daplas" <adaplas@pol.net> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
Diffstat (limited to 'drivers')
-rw-r--r--drivers/video/omap/Makefile1
-rw-r--r--drivers/video/omap/dispc.c1502
-rw-r--r--drivers/video/omap/dispc.h43
3 files changed, 1546 insertions, 0 deletions
diff --git a/drivers/video/omap/Makefile b/drivers/video/omap/Makefile
index 2f353894bcbb..10b5647a8f4f 100644
--- a/drivers/video/omap/Makefile
+++ b/drivers/video/omap/Makefile
@@ -7,6 +7,7 @@ obj-$(CONFIG_FB_OMAP) += omapfb.o
7objs-yy := omapfb_main.o 7objs-yy := omapfb_main.o
8 8
9objs-y$(CONFIG_ARCH_OMAP1) += lcdc.o 9objs-y$(CONFIG_ARCH_OMAP1) += lcdc.o
10objs-y$(CONFIG_ARCH_OMAP2) += dispc.o
10 11
11omapfb-objs := $(objs-yy) 12omapfb-objs := $(objs-yy)
12 13
diff --git a/drivers/video/omap/dispc.c b/drivers/video/omap/dispc.c
new file mode 100644
index 000000000000..f4c23434de6f
--- /dev/null
+++ b/drivers/video/omap/dispc.c
@@ -0,0 +1,1502 @@
1/*
2 * OMAP2 display controller support
3 *
4 * Copyright (C) 2005 Nokia Corporation
5 * Author: Imre Deak <imre.deak@nokia.com>
6 *
7 * This program is free software; you can redistribute it and/or modify it
8 * under the terms of the GNU General Public License as published by the
9 * Free Software Foundation; either version 2 of the License, or (at your
10 * option) any later version.
11 *
12 * This program is distributed in the hope that it will be useful, but
13 * WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
15 * General Public License for more details.
16 *
17 * You should have received a copy of the GNU General Public License along
18 * with this program; if not, write to the Free Software Foundation, Inc.,
19 * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
20 */
21#include <linux/kernel.h>
22#include <linux/dma-mapping.h>
23#include <linux/vmalloc.h>
24#include <linux/clk.h>
25#include <linux/io.h>
26
27#include <asm/arch/sram.h>
28#include <asm/arch/omapfb.h>
29#include <asm/arch/board.h>
30
31#include "dispc.h"
32
33#define MODULE_NAME "dispc"
34
35#define DSS_BASE 0x48050000
36#define DSS_SYSCONFIG 0x0010
37
38#define DISPC_BASE 0x48050400
39
40/* DISPC common */
41#define DISPC_REVISION 0x0000
42#define DISPC_SYSCONFIG 0x0010
43#define DISPC_SYSSTATUS 0x0014
44#define DISPC_IRQSTATUS 0x0018
45#define DISPC_IRQENABLE 0x001C
46#define DISPC_CONTROL 0x0040
47#define DISPC_CONFIG 0x0044
48#define DISPC_CAPABLE 0x0048
49#define DISPC_DEFAULT_COLOR0 0x004C
50#define DISPC_DEFAULT_COLOR1 0x0050
51#define DISPC_TRANS_COLOR0 0x0054
52#define DISPC_TRANS_COLOR1 0x0058
53#define DISPC_LINE_STATUS 0x005C
54#define DISPC_LINE_NUMBER 0x0060
55#define DISPC_TIMING_H 0x0064
56#define DISPC_TIMING_V 0x0068
57#define DISPC_POL_FREQ 0x006C
58#define DISPC_DIVISOR 0x0070
59#define DISPC_SIZE_DIG 0x0078
60#define DISPC_SIZE_LCD 0x007C
61
62#define DISPC_DATA_CYCLE1 0x01D4
63#define DISPC_DATA_CYCLE2 0x01D8
64#define DISPC_DATA_CYCLE3 0x01DC
65
66/* DISPC GFX plane */
67#define DISPC_GFX_BA0 0x0080
68#define DISPC_GFX_BA1 0x0084
69#define DISPC_GFX_POSITION 0x0088
70#define DISPC_GFX_SIZE 0x008C
71#define DISPC_GFX_ATTRIBUTES 0x00A0
72#define DISPC_GFX_FIFO_THRESHOLD 0x00A4
73#define DISPC_GFX_FIFO_SIZE_STATUS 0x00A8
74#define DISPC_GFX_ROW_INC 0x00AC
75#define DISPC_GFX_PIXEL_INC 0x00B0
76#define DISPC_GFX_WINDOW_SKIP 0x00B4
77#define DISPC_GFX_TABLE_BA 0x00B8
78
79/* DISPC Video plane 1/2 */
80#define DISPC_VID1_BASE 0x00BC
81#define DISPC_VID2_BASE 0x014C
82
83/* Offsets into DISPC_VID1/2_BASE */
84#define DISPC_VID_BA0 0x0000
85#define DISPC_VID_BA1 0x0004
86#define DISPC_VID_POSITION 0x0008
87#define DISPC_VID_SIZE 0x000C
88#define DISPC_VID_ATTRIBUTES 0x0010
89#define DISPC_VID_FIFO_THRESHOLD 0x0014
90#define DISPC_VID_FIFO_SIZE_STATUS 0x0018
91#define DISPC_VID_ROW_INC 0x001C
92#define DISPC_VID_PIXEL_INC 0x0020
93#define DISPC_VID_FIR 0x0024
94#define DISPC_VID_PICTURE_SIZE 0x0028
95#define DISPC_VID_ACCU0 0x002C
96#define DISPC_VID_ACCU1 0x0030
97
98/* 8 elements in 8 byte increments */
99#define DISPC_VID_FIR_COEF_H0 0x0034
100/* 8 elements in 8 byte increments */
101#define DISPC_VID_FIR_COEF_HV0 0x0038
102/* 5 elements in 4 byte increments */
103#define DISPC_VID_CONV_COEF0 0x0074
104
105#define DISPC_IRQ_FRAMEMASK 0x0001
106#define DISPC_IRQ_VSYNC 0x0002
107#define DISPC_IRQ_EVSYNC_EVEN 0x0004
108#define DISPC_IRQ_EVSYNC_ODD 0x0008
109#define DISPC_IRQ_ACBIAS_COUNT_STAT 0x0010
110#define DISPC_IRQ_PROG_LINE_NUM 0x0020
111#define DISPC_IRQ_GFX_FIFO_UNDERFLOW 0x0040
112#define DISPC_IRQ_GFX_END_WIN 0x0080
113#define DISPC_IRQ_PAL_GAMMA_MASK 0x0100
114#define DISPC_IRQ_OCP_ERR 0x0200
115#define DISPC_IRQ_VID1_FIFO_UNDERFLOW 0x0400
116#define DISPC_IRQ_VID1_END_WIN 0x0800
117#define DISPC_IRQ_VID2_FIFO_UNDERFLOW 0x1000
118#define DISPC_IRQ_VID2_END_WIN 0x2000
119#define DISPC_IRQ_SYNC_LOST 0x4000
120
121#define DISPC_IRQ_MASK_ALL 0x7fff
122
123#define DISPC_IRQ_MASK_ERROR (DISPC_IRQ_GFX_FIFO_UNDERFLOW | \
124 DISPC_IRQ_VID1_FIFO_UNDERFLOW | \
125 DISPC_IRQ_VID2_FIFO_UNDERFLOW | \
126 DISPC_IRQ_SYNC_LOST)
127
128#define RFBI_CONTROL 0x48050040
129
130#define MAX_PALETTE_SIZE (256 * 16)
131
132#define FLD_MASK(pos, len) (((1 << len) - 1) << pos)
133
134#define MOD_REG_FLD(reg, mask, val) \
135 dispc_write_reg((reg), (dispc_read_reg(reg) & ~(mask)) | (val));
136
137#define OMAP2_SRAM_START 0x40200000
138/* Maximum size, in reality this is smaller if SRAM is partially locked. */
139#define OMAP2_SRAM_SIZE 0xa0000 /* 640k */
140
141/* We support the SDRAM / SRAM types. See OMAPFB_PLANE_MEMTYPE_* in omapfb.h */
142#define DISPC_MEMTYPE_NUM 2
143
144#define RESMAP_SIZE(_page_cnt) \
145 ((_page_cnt + (sizeof(unsigned long) * 8) - 1) / 8)
146#define RESMAP_PTR(_res_map, _page_nr) \
147 (((_res_map)->map) + (_page_nr) / (sizeof(unsigned long) * 8))
148#define RESMAP_MASK(_page_nr) \
149 (1 << ((_page_nr) & (sizeof(unsigned long) * 8 - 1)))
150
151struct resmap {
152 unsigned long start;
153 unsigned page_cnt;
154 unsigned long *map;
155};
156
157static struct {
158 u32 base;
159
160 struct omapfb_mem_desc mem_desc;
161 struct resmap *res_map[DISPC_MEMTYPE_NUM];
162 atomic_t map_count[OMAPFB_PLANE_NUM];
163
164 dma_addr_t palette_paddr;
165 void *palette_vaddr;
166
167 int ext_mode;
168
169 unsigned long enabled_irqs;
170 void (*irq_callback)(void *);
171 void *irq_callback_data;
172 struct completion frame_done;
173
174 int fir_hinc[OMAPFB_PLANE_NUM];
175 int fir_vinc[OMAPFB_PLANE_NUM];
176
177 struct clk *dss_ick, *dss1_fck;
178 struct clk *dss_54m_fck;
179
180 enum omapfb_update_mode update_mode;
181 struct omapfb_device *fbdev;
182
183 struct omapfb_color_key color_key;
184} dispc;
185
186static void enable_lcd_clocks(int enable);
187
188static void inline dispc_write_reg(int idx, u32 val)
189{
190 __raw_writel(val, dispc.base + idx);
191}
192
193static u32 inline dispc_read_reg(int idx)
194{
195 u32 l = __raw_readl(dispc.base + idx);
196 return l;
197}
198
199/* Select RFBI or bypass mode */
200static void enable_rfbi_mode(int enable)
201{
202 u32 l;
203
204 l = dispc_read_reg(DISPC_CONTROL);
205 /* Enable RFBI, GPIO0/1 */
206 l &= ~((1 << 11) | (1 << 15) | (1 << 16));
207 l |= enable ? (1 << 11) : 0;
208 /* RFBI En: GPIO0/1=10 RFBI Dis: GPIO0/1=11 */
209 l |= 1 << 15;
210 l |= enable ? 0 : (1 << 16);
211 dispc_write_reg(DISPC_CONTROL, l);
212
213 /* Set bypass mode in RFBI module */
214 l = __raw_readl(io_p2v(RFBI_CONTROL));
215 l |= enable ? 0 : (1 << 1);
216 __raw_writel(l, io_p2v(RFBI_CONTROL));
217}
218
219static void set_lcd_data_lines(int data_lines)
220{
221 u32 l;
222 int code = 0;
223
224 switch (data_lines) {
225 case 12:
226 code = 0;
227 break;
228 case 16:
229 code = 1;
230 break;
231 case 18:
232 code = 2;
233 break;
234 case 24:
235 code = 3;
236 break;
237 default:
238 BUG();
239 }
240
241 l = dispc_read_reg(DISPC_CONTROL);
242 l &= ~(0x03 << 8);
243 l |= code << 8;
244 dispc_write_reg(DISPC_CONTROL, l);
245}
246
247static void set_load_mode(int mode)
248{
249 BUG_ON(mode & ~(DISPC_LOAD_CLUT_ONLY | DISPC_LOAD_FRAME_ONLY |
250 DISPC_LOAD_CLUT_ONCE_FRAME));
251 MOD_REG_FLD(DISPC_CONFIG, 0x03 << 1, mode << 1);
252}
253
254void omap_dispc_set_lcd_size(int x, int y)
255{
256 BUG_ON((x > (1 << 11)) || (y > (1 << 11)));
257 enable_lcd_clocks(1);
258 MOD_REG_FLD(DISPC_SIZE_LCD, FLD_MASK(16, 11) | FLD_MASK(0, 11),
259 ((y - 1) << 16) | (x - 1));
260 enable_lcd_clocks(0);
261}
262EXPORT_SYMBOL(omap_dispc_set_lcd_size);
263
264void omap_dispc_set_digit_size(int x, int y)
265{
266 BUG_ON((x > (1 << 11)) || (y > (1 << 11)));
267 enable_lcd_clocks(1);
268 MOD_REG_FLD(DISPC_SIZE_DIG, FLD_MASK(16, 11) | FLD_MASK(0, 11),
269 ((y - 1) << 16) | (x - 1));
270 enable_lcd_clocks(0);
271}
272EXPORT_SYMBOL(omap_dispc_set_digit_size);
273
274static void setup_plane_fifo(int plane, int ext_mode)
275{
276 const u32 ftrs_reg[] = { DISPC_GFX_FIFO_THRESHOLD,
277 DISPC_VID1_BASE + DISPC_VID_FIFO_THRESHOLD,
278 DISPC_VID2_BASE + DISPC_VID_FIFO_THRESHOLD };
279 const u32 fsz_reg[] = { DISPC_GFX_FIFO_SIZE_STATUS,
280 DISPC_VID1_BASE + DISPC_VID_FIFO_SIZE_STATUS,
281 DISPC_VID2_BASE + DISPC_VID_FIFO_SIZE_STATUS };
282 int low, high;
283 u32 l;
284
285 BUG_ON(plane > 2);
286
287 l = dispc_read_reg(fsz_reg[plane]);
288 l &= FLD_MASK(0, 9);
289 if (ext_mode) {
290 low = l * 3 / 4;
291 high = l;
292 } else {
293 low = l / 4;
294 high = l * 3 / 4;
295 }
296 MOD_REG_FLD(ftrs_reg[plane], FLD_MASK(16, 9) | FLD_MASK(0, 9),
297 (high << 16) | low);
298}
299
300void omap_dispc_enable_lcd_out(int enable)
301{
302 enable_lcd_clocks(1);
303 MOD_REG_FLD(DISPC_CONTROL, 1, enable ? 1 : 0);
304 enable_lcd_clocks(0);
305}
306EXPORT_SYMBOL(omap_dispc_enable_lcd_out);
307
308void omap_dispc_enable_digit_out(int enable)
309{
310 enable_lcd_clocks(1);
311 MOD_REG_FLD(DISPC_CONTROL, 1 << 1, enable ? 1 << 1 : 0);
312 enable_lcd_clocks(0);
313}
314EXPORT_SYMBOL(omap_dispc_enable_digit_out);
315
316static inline int _setup_plane(int plane, int channel_out,
317 u32 paddr, int screen_width,
318 int pos_x, int pos_y, int width, int height,
319 int color_mode)
320{
321 const u32 at_reg[] = { DISPC_GFX_ATTRIBUTES,
322 DISPC_VID1_BASE + DISPC_VID_ATTRIBUTES,
323 DISPC_VID2_BASE + DISPC_VID_ATTRIBUTES };
324 const u32 ba_reg[] = { DISPC_GFX_BA0, DISPC_VID1_BASE + DISPC_VID_BA0,
325 DISPC_VID2_BASE + DISPC_VID_BA0 };
326 const u32 ps_reg[] = { DISPC_GFX_POSITION,
327 DISPC_VID1_BASE + DISPC_VID_POSITION,
328 DISPC_VID2_BASE + DISPC_VID_POSITION };
329 const u32 sz_reg[] = { DISPC_GFX_SIZE,
330 DISPC_VID1_BASE + DISPC_VID_PICTURE_SIZE,
331 DISPC_VID2_BASE + DISPC_VID_PICTURE_SIZE };
332 const u32 ri_reg[] = { DISPC_GFX_ROW_INC,
333 DISPC_VID1_BASE + DISPC_VID_ROW_INC,
334 DISPC_VID2_BASE + DISPC_VID_ROW_INC };
335 const u32 vs_reg[] = { 0, DISPC_VID1_BASE + DISPC_VID_SIZE,
336 DISPC_VID2_BASE + DISPC_VID_SIZE };
337
338 int chout_shift, burst_shift;
339 int chout_val;
340 int color_code;
341 int bpp;
342 int cconv_en;
343 int set_vsize;
344 u32 l;
345
346#ifdef VERBOSE
347 dev_dbg(dispc.fbdev->dev, "plane %d channel %d paddr %#08x scr_width %d"
348 " pos_x %d pos_y %d width %d height %d color_mode %d\n",
349 plane, channel_out, paddr, screen_width, pos_x, pos_y,
350 width, height, color_mode);
351#endif
352
353 set_vsize = 0;
354 switch (plane) {
355 case OMAPFB_PLANE_GFX:
356 burst_shift = 6;
357 chout_shift = 8;
358 break;
359 case OMAPFB_PLANE_VID1:
360 case OMAPFB_PLANE_VID2:
361 burst_shift = 14;
362 chout_shift = 16;
363 set_vsize = 1;
364 break;
365 default:
366 return -EINVAL;
367 }
368
369 switch (channel_out) {
370 case OMAPFB_CHANNEL_OUT_LCD:
371 chout_val = 0;
372 break;
373 case OMAPFB_CHANNEL_OUT_DIGIT:
374 chout_val = 1;
375 break;
376 default:
377 return -EINVAL;
378 }
379
380 cconv_en = 0;
381 switch (color_mode) {
382 case OMAPFB_COLOR_RGB565:
383 color_code = DISPC_RGB_16_BPP;
384 bpp = 16;
385 break;
386 case OMAPFB_COLOR_YUV422:
387 if (plane == 0)
388 return -EINVAL;
389 color_code = DISPC_UYVY_422;
390 cconv_en = 1;
391 bpp = 16;
392 break;
393 case OMAPFB_COLOR_YUY422:
394 if (plane == 0)
395 return -EINVAL;
396 color_code = DISPC_YUV2_422;
397 cconv_en = 1;
398 bpp = 16;
399 break;
400 default:
401 return -EINVAL;
402 }
403
404 l = dispc_read_reg(at_reg[plane]);
405
406 l &= ~(0x0f << 1);
407 l |= color_code << 1;
408 l &= ~(1 << 9);
409 l |= cconv_en << 9;
410
411 l &= ~(0x03 << burst_shift);
412 l |= DISPC_BURST_8x32 << burst_shift;
413
414 l &= ~(1 << chout_shift);
415 l |= chout_val << chout_shift;
416
417 dispc_write_reg(at_reg[plane], l);
418
419 dispc_write_reg(ba_reg[plane], paddr);
420 MOD_REG_FLD(ps_reg[plane],
421 FLD_MASK(16, 11) | FLD_MASK(0, 11), (pos_y << 16) | pos_x);
422
423 MOD_REG_FLD(sz_reg[plane], FLD_MASK(16, 11) | FLD_MASK(0, 11),
424 ((height - 1) << 16) | (width - 1));
425
426 if (set_vsize) {
427 /* Set video size if set_scale hasn't set it */
428 if (!dispc.fir_vinc[plane])
429 MOD_REG_FLD(vs_reg[plane],
430 FLD_MASK(16, 11), (height - 1) << 16);
431 if (!dispc.fir_hinc[plane])
432 MOD_REG_FLD(vs_reg[plane],
433 FLD_MASK(0, 11), width - 1);
434 }
435
436 dispc_write_reg(ri_reg[plane], (screen_width - width) * bpp / 8 + 1);
437
438 return height * screen_width * bpp / 8;
439}
440
441static int omap_dispc_setup_plane(int plane, int channel_out,
442 unsigned long offset,
443 int screen_width,
444 int pos_x, int pos_y, int width, int height,
445 int color_mode)
446{
447 u32 paddr;
448 int r;
449
450 if ((unsigned)plane > dispc.mem_desc.region_cnt)
451 return -EINVAL;
452 paddr = dispc.mem_desc.region[plane].paddr + offset;
453 enable_lcd_clocks(1);
454 r = _setup_plane(plane, channel_out, paddr,
455 screen_width,
456 pos_x, pos_y, width, height, color_mode);
457 enable_lcd_clocks(0);
458 return r;
459}
460
461static void write_firh_reg(int plane, int reg, u32 value)
462{
463 u32 base;
464
465 if (plane == 1)
466 base = DISPC_VID1_BASE + DISPC_VID_FIR_COEF_H0;
467 else
468 base = DISPC_VID2_BASE + DISPC_VID_FIR_COEF_H0;
469 dispc_write_reg(base + reg * 8, value);
470}
471
472static void write_firhv_reg(int plane, int reg, u32 value)
473{
474 u32 base;
475
476 if (plane == 1)
477 base = DISPC_VID1_BASE + DISPC_VID_FIR_COEF_HV0;
478 else
479 base = DISPC_VID2_BASE + DISPC_VID_FIR_COEF_HV0;
480 dispc_write_reg(base + reg * 8, value);
481}
482
483static void set_upsampling_coef_table(int plane)
484{
485 const u32 coef[][2] = {
486 { 0x00800000, 0x00800000 },
487 { 0x0D7CF800, 0x037B02FF },
488 { 0x1E70F5FF, 0x0C6F05FE },
489 { 0x335FF5FE, 0x205907FB },
490 { 0xF74949F7, 0x00404000 },
491 { 0xF55F33FB, 0x075920FE },
492 { 0xF5701EFE, 0x056F0CFF },
493 { 0xF87C0DFF, 0x027B0300 },
494 };
495 int i;
496
497 for (i = 0; i < 8; i++) {
498 write_firh_reg(plane, i, coef[i][0]);
499 write_firhv_reg(plane, i, coef[i][1]);
500 }
501}
502
503static int omap_dispc_set_scale(int plane,
504 int orig_width, int orig_height,
505 int out_width, int out_height)
506{
507 const u32 at_reg[] = { 0, DISPC_VID1_BASE + DISPC_VID_ATTRIBUTES,
508 DISPC_VID2_BASE + DISPC_VID_ATTRIBUTES };
509 const u32 vs_reg[] = { 0, DISPC_VID1_BASE + DISPC_VID_SIZE,
510 DISPC_VID2_BASE + DISPC_VID_SIZE };
511 const u32 fir_reg[] = { 0, DISPC_VID1_BASE + DISPC_VID_FIR,
512 DISPC_VID2_BASE + DISPC_VID_FIR };
513
514 u32 l;
515 int fir_hinc;
516 int fir_vinc;
517
518 if ((unsigned)plane > OMAPFB_PLANE_NUM)
519 return -ENODEV;
520
521 if (plane == OMAPFB_PLANE_GFX &&
522 (out_width != orig_width || out_height != orig_height))
523 return -EINVAL;
524
525 enable_lcd_clocks(1);
526 if (orig_width < out_width) {
527 /*
528 * Upsampling.
529 * Currently you can only scale both dimensions in one way.
530 */
531 if (orig_height > out_height ||
532 orig_width * 8 < out_width ||
533 orig_height * 8 < out_height) {
534 enable_lcd_clocks(0);
535 return -EINVAL;
536 }
537 set_upsampling_coef_table(plane);
538 } else if (orig_width > out_width) {
539 /* Downsampling not yet supported
540 */
541
542 enable_lcd_clocks(0);
543 return -EINVAL;
544 }
545 if (!orig_width || orig_width == out_width)
546 fir_hinc = 0;
547 else
548 fir_hinc = 1024 * orig_width / out_width;
549 if (!orig_height || orig_height == out_height)
550 fir_vinc = 0;
551 else
552 fir_vinc = 1024 * orig_height / out_height;
553 dispc.fir_hinc[plane] = fir_hinc;
554 dispc.fir_vinc[plane] = fir_vinc;
555
556 MOD_REG_FLD(fir_reg[plane],
557 FLD_MASK(16, 12) | FLD_MASK(0, 12),
558 ((fir_vinc & 4095) << 16) |
559 (fir_hinc & 4095));
560
561 dev_dbg(dispc.fbdev->dev, "out_width %d out_height %d orig_width %d "
562 "orig_height %d fir_hinc %d fir_vinc %d\n",
563 out_width, out_height, orig_width, orig_height,
564 fir_hinc, fir_vinc);
565
566 MOD_REG_FLD(vs_reg[plane],
567 FLD_MASK(16, 11) | FLD_MASK(0, 11),
568 ((out_height - 1) << 16) | (out_width - 1));
569
570 l = dispc_read_reg(at_reg[plane]);
571 l &= ~(0x03 << 5);
572 l |= fir_hinc ? (1 << 5) : 0;
573 l |= fir_vinc ? (1 << 6) : 0;
574 dispc_write_reg(at_reg[plane], l);
575
576 enable_lcd_clocks(0);
577 return 0;
578}
579
580static int omap_dispc_enable_plane(int plane, int enable)
581{
582 const u32 at_reg[] = { DISPC_GFX_ATTRIBUTES,
583 DISPC_VID1_BASE + DISPC_VID_ATTRIBUTES,
584 DISPC_VID2_BASE + DISPC_VID_ATTRIBUTES };
585 if ((unsigned int)plane > dispc.mem_desc.region_cnt)
586 return -EINVAL;
587
588 enable_lcd_clocks(1);
589 MOD_REG_FLD(at_reg[plane], 1, enable ? 1 : 0);
590 enable_lcd_clocks(0);
591
592 return 0;
593}
594
595static int omap_dispc_set_color_key(struct omapfb_color_key *ck)
596{
597 u32 df_reg, tr_reg;
598 int shift, val;
599
600 switch (ck->channel_out) {
601 case OMAPFB_CHANNEL_OUT_LCD:
602 df_reg = DISPC_DEFAULT_COLOR0;
603 tr_reg = DISPC_TRANS_COLOR0;
604 shift = 10;
605 break;
606 case OMAPFB_CHANNEL_OUT_DIGIT:
607 df_reg = DISPC_DEFAULT_COLOR1;
608 tr_reg = DISPC_TRANS_COLOR1;
609 shift = 12;
610 break;
611 default:
612 return -EINVAL;
613 }
614 switch (ck->key_type) {
615 case OMAPFB_COLOR_KEY_DISABLED:
616 val = 0;
617 break;
618 case OMAPFB_COLOR_KEY_GFX_DST:
619 val = 1;
620 break;
621 case OMAPFB_COLOR_KEY_VID_SRC:
622 val = 3;
623 break;
624 default:
625 return -EINVAL;
626 }
627 enable_lcd_clocks(1);
628 MOD_REG_FLD(DISPC_CONFIG, FLD_MASK(shift, 2), val << shift);
629
630 if (val != 0)
631 dispc_write_reg(tr_reg, ck->trans_key);
632 dispc_write_reg(df_reg, ck->background);
633 enable_lcd_clocks(0);
634
635 dispc.color_key = *ck;
636
637 return 0;
638}
639
640static int omap_dispc_get_color_key(struct omapfb_color_key *ck)
641{
642 *ck = dispc.color_key;
643 return 0;
644}
645
646static void load_palette(void)
647{
648}
649
650static int omap_dispc_set_update_mode(enum omapfb_update_mode mode)
651{
652 int r = 0;
653
654 if (mode != dispc.update_mode) {
655 switch (mode) {
656 case OMAPFB_AUTO_UPDATE:
657 case OMAPFB_MANUAL_UPDATE:
658 enable_lcd_clocks(1);
659 omap_dispc_enable_lcd_out(1);
660 dispc.update_mode = mode;
661 break;
662 case OMAPFB_UPDATE_DISABLED:
663 init_completion(&dispc.frame_done);
664 omap_dispc_enable_lcd_out(0);
665 if (!wait_for_completion_timeout(&dispc.frame_done,
666 msecs_to_jiffies(500))) {
667 dev_err(dispc.fbdev->dev,
668 "timeout waiting for FRAME DONE\n");
669 }
670 dispc.update_mode = mode;
671 enable_lcd_clocks(0);
672 break;
673 default:
674 r = -EINVAL;
675 }
676 }
677
678 return r;
679}
680
681static void omap_dispc_get_caps(int plane, struct omapfb_caps *caps)
682{
683 caps->ctrl |= OMAPFB_CAPS_PLANE_RELOCATE_MEM;
684 if (plane > 0)
685 caps->ctrl |= OMAPFB_CAPS_PLANE_SCALE;
686 caps->plane_color |= (1 << OMAPFB_COLOR_RGB565) |
687 (1 << OMAPFB_COLOR_YUV422) |
688 (1 << OMAPFB_COLOR_YUY422);
689 if (plane == 0)
690 caps->plane_color |= (1 << OMAPFB_COLOR_CLUT_8BPP) |
691 (1 << OMAPFB_COLOR_CLUT_4BPP) |
692 (1 << OMAPFB_COLOR_CLUT_2BPP) |
693 (1 << OMAPFB_COLOR_CLUT_1BPP) |
694 (1 << OMAPFB_COLOR_RGB444);
695}
696
697static enum omapfb_update_mode omap_dispc_get_update_mode(void)
698{
699 return dispc.update_mode;
700}
701
702static void setup_color_conv_coef(void)
703{
704 u32 mask = FLD_MASK(16, 11) | FLD_MASK(0, 11);
705 int cf1_reg = DISPC_VID1_BASE + DISPC_VID_CONV_COEF0;
706 int cf2_reg = DISPC_VID2_BASE + DISPC_VID_CONV_COEF0;
707 int at1_reg = DISPC_VID1_BASE + DISPC_VID_ATTRIBUTES;
708 int at2_reg = DISPC_VID2_BASE + DISPC_VID_ATTRIBUTES;
709 const struct color_conv_coef {
710 int ry, rcr, rcb, gy, gcr, gcb, by, bcr, bcb;
711 int full_range;
712 } ctbl_bt601_5 = {
713 298, 409, 0, 298, -208, -100, 298, 0, 517, 0,
714 };
715 const struct color_conv_coef *ct;
716#define CVAL(x, y) (((x & 2047) << 16) | (y & 2047))
717
718 ct = &ctbl_bt601_5;
719
720 MOD_REG_FLD(cf1_reg, mask, CVAL(ct->rcr, ct->ry));
721 MOD_REG_FLD(cf1_reg + 4, mask, CVAL(ct->gy, ct->rcb));
722 MOD_REG_FLD(cf1_reg + 8, mask, CVAL(ct->gcb, ct->gcr));
723 MOD_REG_FLD(cf1_reg + 12, mask, CVAL(ct->bcr, ct->by));
724 MOD_REG_FLD(cf1_reg + 16, mask, CVAL(0, ct->bcb));
725
726 MOD_REG_FLD(cf2_reg, mask, CVAL(ct->rcr, ct->ry));
727 MOD_REG_FLD(cf2_reg + 4, mask, CVAL(ct->gy, ct->rcb));
728 MOD_REG_FLD(cf2_reg + 8, mask, CVAL(ct->gcb, ct->gcr));
729 MOD_REG_FLD(cf2_reg + 12, mask, CVAL(ct->bcr, ct->by));
730 MOD_REG_FLD(cf2_reg + 16, mask, CVAL(0, ct->bcb));
731#undef CVAL
732
733 MOD_REG_FLD(at1_reg, (1 << 11), ct->full_range);
734 MOD_REG_FLD(at2_reg, (1 << 11), ct->full_range);
735}
736
737static void calc_ck_div(int is_tft, int pck, int *lck_div, int *pck_div)
738{
739 unsigned long fck, lck;
740
741 *lck_div = 1;
742 pck = max(1, pck);
743 fck = clk_get_rate(dispc.dss1_fck);
744 lck = fck;
745 *pck_div = (lck + pck - 1) / pck;
746 if (is_tft)
747 *pck_div = max(2, *pck_div);
748 else
749 *pck_div = max(3, *pck_div);
750 if (*pck_div > 255) {
751 *pck_div = 255;
752 lck = pck * *pck_div;
753 *lck_div = fck / lck;
754 BUG_ON(*lck_div < 1);
755 if (*lck_div > 255) {
756 *lck_div = 255;
757 dev_warn(dispc.fbdev->dev, "pixclock %d kHz too low.\n",
758 pck / 1000);
759 }
760 }
761}
762
763static void set_lcd_tft_mode(int enable)
764{
765 u32 mask;
766
767 mask = 1 << 3;
768 MOD_REG_FLD(DISPC_CONTROL, mask, enable ? mask : 0);
769}
770
771static void set_lcd_timings(void)
772{
773 u32 l;
774 int lck_div, pck_div;
775 struct lcd_panel *panel = dispc.fbdev->panel;
776 int is_tft = panel->config & OMAP_LCDC_PANEL_TFT;
777 unsigned long fck;
778
779 l = dispc_read_reg(DISPC_TIMING_H);
780 l &= ~(FLD_MASK(0, 6) | FLD_MASK(8, 8) | FLD_MASK(20, 8));
781 l |= ( max(1, (min(64, panel->hsw))) - 1 ) << 0;
782 l |= ( max(1, (min(256, panel->hfp))) - 1 ) << 8;
783 l |= ( max(1, (min(256, panel->hbp))) - 1 ) << 20;
784 dispc_write_reg(DISPC_TIMING_H, l);
785
786 l = dispc_read_reg(DISPC_TIMING_V);
787 l &= ~(FLD_MASK(0, 6) | FLD_MASK(8, 8) | FLD_MASK(20, 8));
788 l |= ( max(1, (min(64, panel->vsw))) - 1 ) << 0;
789 l |= ( max(0, (min(255, panel->vfp))) - 0 ) << 8;
790 l |= ( max(0, (min(255, panel->vbp))) - 0 ) << 20;
791 dispc_write_reg(DISPC_TIMING_V, l);
792
793 l = dispc_read_reg(DISPC_POL_FREQ);
794 l &= ~FLD_MASK(12, 6);
795 l |= (panel->config & OMAP_LCDC_SIGNAL_MASK) << 12;
796 l |= panel->acb & 0xff;
797 dispc_write_reg(DISPC_POL_FREQ, l);
798
799 calc_ck_div(is_tft, panel->pixel_clock * 1000, &lck_div, &pck_div);
800
801 l = dispc_read_reg(DISPC_DIVISOR);
802 l &= ~(FLD_MASK(16, 8) | FLD_MASK(0, 8));
803 l |= (lck_div << 16) | (pck_div << 0);
804 dispc_write_reg(DISPC_DIVISOR, l);
805
806 /* update panel info with the exact clock */
807 fck = clk_get_rate(dispc.dss1_fck);
808 panel->pixel_clock = fck / lck_div / pck_div / 1000;
809}
810
811int omap_dispc_request_irq(void (*callback)(void *data), void *data)
812{
813 int r = 0;
814
815 BUG_ON(callback == NULL);
816
817 if (dispc.irq_callback)
818 r = -EBUSY;
819 else {
820 dispc.irq_callback = callback;
821 dispc.irq_callback_data = data;
822 }
823
824 return r;
825}
826EXPORT_SYMBOL(omap_dispc_request_irq);
827
828void omap_dispc_enable_irqs(int irq_mask)
829{
830 enable_lcd_clocks(1);
831 dispc.enabled_irqs = irq_mask;
832 irq_mask |= DISPC_IRQ_MASK_ERROR;
833 MOD_REG_FLD(DISPC_IRQENABLE, 0x7fff, irq_mask);
834 enable_lcd_clocks(0);
835}
836EXPORT_SYMBOL(omap_dispc_enable_irqs);
837
838void omap_dispc_disable_irqs(int irq_mask)
839{
840 enable_lcd_clocks(1);
841 dispc.enabled_irqs &= ~irq_mask;
842 irq_mask &= ~DISPC_IRQ_MASK_ERROR;
843 MOD_REG_FLD(DISPC_IRQENABLE, 0x7fff, irq_mask);
844 enable_lcd_clocks(0);
845}
846EXPORT_SYMBOL(omap_dispc_disable_irqs);
847
848void omap_dispc_free_irq(void)
849{
850 enable_lcd_clocks(1);
851 omap_dispc_disable_irqs(DISPC_IRQ_MASK_ALL);
852 dispc.irq_callback = NULL;
853 dispc.irq_callback_data = NULL;
854 enable_lcd_clocks(0);
855}
856EXPORT_SYMBOL(omap_dispc_free_irq);
857
858static irqreturn_t omap_dispc_irq_handler(int irq, void *dev)
859{
860 u32 stat = dispc_read_reg(DISPC_IRQSTATUS);
861
862 if (stat & DISPC_IRQ_FRAMEMASK)
863 complete(&dispc.frame_done);
864
865 if (stat & DISPC_IRQ_MASK_ERROR) {
866 if (printk_ratelimit()) {
867 dev_err(dispc.fbdev->dev, "irq error status %04x\n",
868 stat & 0x7fff);
869 }
870 }
871
872 if ((stat & dispc.enabled_irqs) && dispc.irq_callback)
873 dispc.irq_callback(dispc.irq_callback_data);
874
875 dispc_write_reg(DISPC_IRQSTATUS, stat);
876
877 return IRQ_HANDLED;
878}
879
880static int get_dss_clocks(void)
881{
882 if (IS_ERR((dispc.dss_ick = clk_get(dispc.fbdev->dev, "dss_ick")))) {
883 dev_err(dispc.fbdev->dev, "can't get dss_ick");
884 return PTR_ERR(dispc.dss_ick);
885 }
886
887 if (IS_ERR((dispc.dss1_fck = clk_get(dispc.fbdev->dev, "dss1_fck")))) {
888 dev_err(dispc.fbdev->dev, "can't get dss1_fck");
889 clk_put(dispc.dss_ick);
890 return PTR_ERR(dispc.dss1_fck);
891 }
892
893 if (IS_ERR((dispc.dss_54m_fck =
894 clk_get(dispc.fbdev->dev, "dss_54m_fck")))) {
895 dev_err(dispc.fbdev->dev, "can't get dss_54m_fck");
896 clk_put(dispc.dss_ick);
897 clk_put(dispc.dss1_fck);
898 return PTR_ERR(dispc.dss_54m_fck);
899 }
900
901 return 0;
902}
903
904static void put_dss_clocks(void)
905{
906 clk_put(dispc.dss_54m_fck);
907 clk_put(dispc.dss1_fck);
908 clk_put(dispc.dss_ick);
909}
910
911static void enable_lcd_clocks(int enable)
912{
913 if (enable)
914 clk_enable(dispc.dss1_fck);
915 else
916 clk_disable(dispc.dss1_fck);
917}
918
919static void enable_interface_clocks(int enable)
920{
921 if (enable)
922 clk_enable(dispc.dss_ick);
923 else
924 clk_disable(dispc.dss_ick);
925}
926
927static void enable_digit_clocks(int enable)
928{
929 if (enable)
930 clk_enable(dispc.dss_54m_fck);
931 else
932 clk_disable(dispc.dss_54m_fck);
933}
934
935static void omap_dispc_suspend(void)
936{
937 if (dispc.update_mode == OMAPFB_AUTO_UPDATE) {
938 init_completion(&dispc.frame_done);
939 omap_dispc_enable_lcd_out(0);
940 if (!wait_for_completion_timeout(&dispc.frame_done,
941 msecs_to_jiffies(500))) {
942 dev_err(dispc.fbdev->dev,
943 "timeout waiting for FRAME DONE\n");
944 }
945 enable_lcd_clocks(0);
946 }
947}
948
949static void omap_dispc_resume(void)
950{
951 if (dispc.update_mode == OMAPFB_AUTO_UPDATE) {
952 enable_lcd_clocks(1);
953 if (!dispc.ext_mode) {
954 set_lcd_timings();
955 load_palette();
956 }
957 omap_dispc_enable_lcd_out(1);
958 }
959}
960
961
962static int omap_dispc_update_window(struct fb_info *fbi,
963 struct omapfb_update_window *win,
964 void (*complete_callback)(void *arg),
965 void *complete_callback_data)
966{
967 return dispc.update_mode == OMAPFB_UPDATE_DISABLED ? -ENODEV : 0;
968}
969
970static int mmap_kern(struct omapfb_mem_region *region)
971{
972 struct vm_struct *kvma;
973 struct vm_area_struct vma;
974 pgprot_t pgprot;
975 unsigned long vaddr;
976
977 kvma = get_vm_area(region->size, VM_IOREMAP);
978 if (kvma == NULL) {
979 dev_err(dispc.fbdev->dev, "can't get kernel vm area\n");
980 return -ENOMEM;
981 }
982 vma.vm_mm = &init_mm;
983
984 vaddr = (unsigned long)kvma->addr;
985
986 pgprot = pgprot_writecombine(pgprot_kernel);
987 vma.vm_start = vaddr;
988 vma.vm_end = vaddr + region->size;
989 if (io_remap_pfn_range(&vma, vaddr, region->paddr >> PAGE_SHIFT,
990 region->size, pgprot) < 0) {
991 dev_err(dispc.fbdev->dev, "kernel mmap for FBMEM failed\n");
992 return -EAGAIN;
993 }
994 region->vaddr = (void *)vaddr;
995
996 return 0;
997}
998
999static void mmap_user_open(struct vm_area_struct *vma)
1000{
1001 int plane = (int)vma->vm_private_data;
1002
1003 atomic_inc(&dispc.map_count[plane]);
1004}
1005
1006static void mmap_user_close(struct vm_area_struct *vma)
1007{
1008 int plane = (int)vma->vm_private_data;
1009
1010 atomic_dec(&dispc.map_count[plane]);
1011}
1012
1013static struct vm_operations_struct mmap_user_ops = {
1014 .open = mmap_user_open,
1015 .close = mmap_user_close,
1016};
1017
1018static int omap_dispc_mmap_user(struct fb_info *info,
1019 struct vm_area_struct *vma)
1020{
1021 struct omapfb_plane_struct *plane = info->par;
1022 unsigned long off;
1023 unsigned long start;
1024 u32 len;
1025
1026 if (vma->vm_end - vma->vm_start == 0)
1027 return 0;
1028 if (vma->vm_pgoff > (~0UL >> PAGE_SHIFT))
1029 return -EINVAL;
1030 off = vma->vm_pgoff << PAGE_SHIFT;
1031
1032 start = info->fix.smem_start;
1033 len = info->fix.smem_len;
1034 if (off >= len)
1035 return -EINVAL;
1036 if ((vma->vm_end - vma->vm_start + off) > len)
1037 return -EINVAL;
1038 off += start;
1039 vma->vm_pgoff = off >> PAGE_SHIFT;
1040 vma->vm_flags |= VM_IO | VM_RESERVED;
1041 vma->vm_page_prot = pgprot_writecombine(vma->vm_page_prot);
1042 vma->vm_ops = &mmap_user_ops;
1043 vma->vm_private_data = (void *)plane->idx;
1044 if (io_remap_pfn_range(vma, vma->vm_start, off >> PAGE_SHIFT,
1045 vma->vm_end - vma->vm_start, vma->vm_page_prot))
1046 return -EAGAIN;
1047 /* vm_ops.open won't be called for mmap itself. */
1048 atomic_inc(&dispc.map_count[plane->idx]);
1049 return 0;
1050}
1051
1052static void unmap_kern(struct omapfb_mem_region *region)
1053{
1054 vunmap(region->vaddr);
1055}
1056
1057static int alloc_palette_ram(void)
1058{
1059 dispc.palette_vaddr = dma_alloc_writecombine(dispc.fbdev->dev,
1060 MAX_PALETTE_SIZE, &dispc.palette_paddr, GFP_KERNEL);
1061 if (dispc.palette_vaddr == NULL) {
1062 dev_err(dispc.fbdev->dev, "failed to alloc palette memory\n");
1063 return -ENOMEM;
1064 }
1065
1066 return 0;
1067}
1068
1069static void free_palette_ram(void)
1070{
1071 dma_free_writecombine(dispc.fbdev->dev, MAX_PALETTE_SIZE,
1072 dispc.palette_vaddr, dispc.palette_paddr);
1073}
1074
1075static int alloc_fbmem(struct omapfb_mem_region *region)
1076{
1077 region->vaddr = dma_alloc_writecombine(dispc.fbdev->dev,
1078 region->size, &region->paddr, GFP_KERNEL);
1079
1080 if (region->vaddr == NULL) {
1081 dev_err(dispc.fbdev->dev, "unable to allocate FB DMA memory\n");
1082 return -ENOMEM;
1083 }
1084
1085 return 0;
1086}
1087
1088static void free_fbmem(struct omapfb_mem_region *region)
1089{
1090 dma_free_writecombine(dispc.fbdev->dev, region->size,
1091 region->vaddr, region->paddr);
1092}
1093
1094static struct resmap *init_resmap(unsigned long start, size_t size)
1095{
1096 unsigned page_cnt;
1097 struct resmap *res_map;
1098
1099 page_cnt = PAGE_ALIGN(size) / PAGE_SIZE;
1100 res_map =
1101 kzalloc(sizeof(struct resmap) + RESMAP_SIZE(page_cnt), GFP_KERNEL);
1102 if (res_map == NULL)
1103 return NULL;
1104 res_map->start = start;
1105 res_map->page_cnt = page_cnt;
1106 res_map->map = (unsigned long *)(res_map + 1);
1107 return res_map;
1108}
1109
1110static void cleanup_resmap(struct resmap *res_map)
1111{
1112 kfree(res_map);
1113}
1114
1115static inline int resmap_mem_type(unsigned long start)
1116{
1117 if (start >= OMAP2_SRAM_START &&
1118 start < OMAP2_SRAM_START + OMAP2_SRAM_SIZE)
1119 return OMAPFB_MEMTYPE_SRAM;
1120 else
1121 return OMAPFB_MEMTYPE_SDRAM;
1122}
1123
1124static inline int resmap_page_reserved(struct resmap *res_map, unsigned page_nr)
1125{
1126 return *RESMAP_PTR(res_map, page_nr) & RESMAP_MASK(page_nr) ? 1 : 0;
1127}
1128
1129static inline void resmap_reserve_page(struct resmap *res_map, unsigned page_nr)
1130{
1131 BUG_ON(resmap_page_reserved(res_map, page_nr));
1132 *RESMAP_PTR(res_map, page_nr) |= RESMAP_MASK(page_nr);
1133}
1134
1135static inline void resmap_free_page(struct resmap *res_map, unsigned page_nr)
1136{
1137 BUG_ON(!resmap_page_reserved(res_map, page_nr));
1138 *RESMAP_PTR(res_map, page_nr) &= ~RESMAP_MASK(page_nr);
1139}
1140
1141static void resmap_reserve_region(unsigned long start, size_t size)
1142{
1143
1144 struct resmap *res_map;
1145 unsigned start_page;
1146 unsigned end_page;
1147 int mtype;
1148 unsigned i;
1149
1150 mtype = resmap_mem_type(start);
1151 res_map = dispc.res_map[mtype];
1152 dev_dbg(dispc.fbdev->dev, "reserve mem type %d start %08lx size %d\n",
1153 mtype, start, size);
1154 start_page = (start - res_map->start) / PAGE_SIZE;
1155 end_page = start_page + PAGE_ALIGN(size) / PAGE_SIZE;
1156 for (i = start_page; i < end_page; i++)
1157 resmap_reserve_page(res_map, i);
1158}
1159
1160static void resmap_free_region(unsigned long start, size_t size)
1161{
1162 struct resmap *res_map;
1163 unsigned start_page;
1164 unsigned end_page;
1165 unsigned i;
1166 int mtype;
1167
1168 mtype = resmap_mem_type(start);
1169 res_map = dispc.res_map[mtype];
1170 dev_dbg(dispc.fbdev->dev, "free mem type %d start %08lx size %d\n",
1171 mtype, start, size);
1172 start_page = (start - res_map->start) / PAGE_SIZE;
1173 end_page = start_page + PAGE_ALIGN(size) / PAGE_SIZE;
1174 for (i = start_page; i < end_page; i++)
1175 resmap_free_page(res_map, i);
1176}
1177
1178static unsigned long resmap_alloc_region(int mtype, size_t size)
1179{
1180 unsigned i;
1181 unsigned total;
1182 unsigned start_page;
1183 unsigned long start;
1184 struct resmap *res_map = dispc.res_map[mtype];
1185
1186 BUG_ON(mtype >= DISPC_MEMTYPE_NUM || res_map == NULL || !size);
1187
1188 size = PAGE_ALIGN(size) / PAGE_SIZE;
1189 start_page = 0;
1190 total = 0;
1191 for (i = 0; i < res_map->page_cnt; i++) {
1192 if (resmap_page_reserved(res_map, i)) {
1193 start_page = i + 1;
1194 total = 0;
1195 } else if (++total == size)
1196 break;
1197 }
1198 if (total < size)
1199 return 0;
1200
1201 start = res_map->start + start_page * PAGE_SIZE;
1202 resmap_reserve_region(start, size * PAGE_SIZE);
1203
1204 return start;
1205}
1206
1207/* Note that this will only work for user mappings, we don't deal with
1208 * kernel mappings here, so fbcon will keep using the old region.
1209 */
1210static int omap_dispc_setup_mem(int plane, size_t size, int mem_type,
1211 unsigned long *paddr)
1212{
1213 struct omapfb_mem_region *rg;
1214 unsigned long new_addr = 0;
1215
1216 if ((unsigned)plane > dispc.mem_desc.region_cnt)
1217 return -EINVAL;
1218 if (mem_type >= DISPC_MEMTYPE_NUM)
1219 return -EINVAL;
1220 if (dispc.res_map[mem_type] == NULL)
1221 return -ENOMEM;
1222 rg = &dispc.mem_desc.region[plane];
1223 if (size == rg->size && mem_type == rg->type)
1224 return 0;
1225 if (atomic_read(&dispc.map_count[plane]))
1226 return -EBUSY;
1227 if (rg->size != 0)
1228 resmap_free_region(rg->paddr, rg->size);
1229 if (size != 0) {
1230 new_addr = resmap_alloc_region(mem_type, size);
1231 if (!new_addr) {
1232 /* Reallocate old region. */
1233 resmap_reserve_region(rg->paddr, rg->size);
1234 return -ENOMEM;
1235 }
1236 }
1237 rg->paddr = new_addr;
1238 rg->size = size;
1239 rg->type = mem_type;
1240
1241 *paddr = new_addr;
1242
1243 return 0;
1244}
1245
1246static int setup_fbmem(struct omapfb_mem_desc *req_md)
1247{
1248 struct omapfb_mem_region *rg;
1249 int i;
1250 int r;
1251 unsigned long mem_start[DISPC_MEMTYPE_NUM];
1252 unsigned long mem_end[DISPC_MEMTYPE_NUM];
1253
1254 if (!req_md->region_cnt) {
1255 dev_err(dispc.fbdev->dev, "no memory regions defined\n");
1256 return -ENOENT;
1257 }
1258
1259 rg = &req_md->region[0];
1260 memset(mem_start, 0xff, sizeof(mem_start));
1261 memset(mem_end, 0, sizeof(mem_end));
1262
1263 for (i = 0; i < req_md->region_cnt; i++, rg++) {
1264 int mtype;
1265 if (rg->paddr) {
1266 rg->alloc = 0;
1267 if (rg->vaddr == NULL) {
1268 rg->map = 1;
1269 if ((r = mmap_kern(rg)) < 0)
1270 return r;
1271 }
1272 } else {
1273 if (rg->type != OMAPFB_MEMTYPE_SDRAM) {
1274 dev_err(dispc.fbdev->dev,
1275 "unsupported memory type\n");
1276 return -EINVAL;
1277 }
1278 rg->alloc = rg->map = 1;
1279 if ((r = alloc_fbmem(rg)) < 0)
1280 return r;
1281 }
1282 mtype = rg->type;
1283
1284 if (rg->paddr < mem_start[mtype])
1285 mem_start[mtype] = rg->paddr;
1286 if (rg->paddr + rg->size > mem_end[mtype])
1287 mem_end[mtype] = rg->paddr + rg->size;
1288 }
1289
1290 for (i = 0; i < DISPC_MEMTYPE_NUM; i++) {
1291 unsigned long start;
1292 size_t size;
1293 if (mem_end[i] == 0)
1294 continue;
1295 start = mem_start[i];
1296 size = mem_end[i] - start;
1297 dispc.res_map[i] = init_resmap(start, size);
1298 r = -ENOMEM;
1299 if (dispc.res_map[i] == NULL)
1300 goto fail;
1301 /* Initial state is that everything is reserved. This
1302 * includes possible holes as well, which will never be
1303 * freed.
1304 */
1305 resmap_reserve_region(start, size);
1306 }
1307
1308 dispc.mem_desc = *req_md;
1309
1310 return 0;
1311fail:
1312 for (i = 0; i < DISPC_MEMTYPE_NUM; i++) {
1313 if (dispc.res_map[i] != NULL)
1314 cleanup_resmap(dispc.res_map[i]);
1315 }
1316 return r;
1317}
1318
1319static void cleanup_fbmem(void)
1320{
1321 struct omapfb_mem_region *rg;
1322 int i;
1323
1324 for (i = 0; i < DISPC_MEMTYPE_NUM; i++) {
1325 if (dispc.res_map[i] != NULL)
1326 cleanup_resmap(dispc.res_map[i]);
1327 }
1328 rg = &dispc.mem_desc.region[0];
1329 for (i = 0; i < dispc.mem_desc.region_cnt; i++, rg++) {
1330 if (rg->alloc)
1331 free_fbmem(rg);
1332 else {
1333 if (rg->map)
1334 unmap_kern(rg);
1335 }
1336 }
1337}
1338
1339static int omap_dispc_init(struct omapfb_device *fbdev, int ext_mode,
1340 struct omapfb_mem_desc *req_vram)
1341{
1342 int r;
1343 u32 l;
1344 struct lcd_panel *panel = fbdev->panel;
1345 int tmo = 10000;
1346 int skip_init = 0;
1347 int i;
1348
1349 memset(&dispc, 0, sizeof(dispc));
1350
1351 dispc.base = io_p2v(DISPC_BASE);
1352 dispc.fbdev = fbdev;
1353 dispc.ext_mode = ext_mode;
1354
1355 init_completion(&dispc.frame_done);
1356
1357 if ((r = get_dss_clocks()) < 0)
1358 return r;
1359
1360 enable_interface_clocks(1);
1361 enable_lcd_clocks(1);
1362
1363#ifdef CONFIG_FB_OMAP_BOOTLOADER_INIT
1364 l = dispc_read_reg(DISPC_CONTROL);
1365 /* LCD enabled ? */
1366 if (l & 1) {
1367 pr_info("omapfb: skipping hardware initialization\n");
1368 skip_init = 1;
1369 }
1370#endif
1371
1372 if (!skip_init) {
1373 /* Reset monitoring works only w/ the 54M clk */
1374 enable_digit_clocks(1);
1375
1376 /* Soft reset */
1377 MOD_REG_FLD(DISPC_SYSCONFIG, 1 << 1, 1 << 1);
1378
1379 while (!(dispc_read_reg(DISPC_SYSSTATUS) & 1)) {
1380 if (!--tmo) {
1381 dev_err(dispc.fbdev->dev, "soft reset failed\n");
1382 r = -ENODEV;
1383 enable_digit_clocks(0);
1384 goto fail1;
1385 }
1386 }
1387
1388 enable_digit_clocks(0);
1389 }
1390
1391 /* Enable smart idle and autoidle */
1392 l = dispc_read_reg(DISPC_CONTROL);
1393 l &= ~((3 << 12) | (3 << 3));
1394 l |= (2 << 12) | (2 << 3) | (1 << 0);
1395 dispc_write_reg(DISPC_SYSCONFIG, l);
1396 omap_writel(1 << 0, DSS_BASE + DSS_SYSCONFIG);
1397
1398 /* Set functional clock autogating */
1399 l = dispc_read_reg(DISPC_CONFIG);
1400 l |= 1 << 9;
1401 dispc_write_reg(DISPC_CONFIG, l);
1402
1403 l = dispc_read_reg(DISPC_IRQSTATUS);
1404 dispc_write_reg(l, DISPC_IRQSTATUS);
1405
1406 /* Enable those that we handle always */
1407 omap_dispc_enable_irqs(DISPC_IRQ_FRAMEMASK);
1408
1409 if ((r = request_irq(INT_24XX_DSS_IRQ, omap_dispc_irq_handler,
1410 0, MODULE_NAME, fbdev)) < 0) {
1411 dev_err(dispc.fbdev->dev, "can't get DSS IRQ\n");
1412 goto fail1;
1413 }
1414
1415 /* L3 firewall setting: enable access to OCM RAM */
1416 __raw_writel(0x402000b0, io_p2v(0x680050a0));
1417
1418 if ((r = alloc_palette_ram()) < 0)
1419 goto fail2;
1420
1421 if ((r = setup_fbmem(req_vram)) < 0)
1422 goto fail3;
1423
1424 if (!skip_init) {
1425 for (i = 0; i < dispc.mem_desc.region_cnt; i++) {
1426 memset(dispc.mem_desc.region[i].vaddr, 0,
1427 dispc.mem_desc.region[i].size);
1428 }
1429
1430 /* Set logic clock to fck, pixel clock to fck/2 for now */
1431 MOD_REG_FLD(DISPC_DIVISOR, FLD_MASK(16, 8), 1 << 16);
1432 MOD_REG_FLD(DISPC_DIVISOR, FLD_MASK(0, 8), 2 << 0);
1433
1434 setup_plane_fifo(0, ext_mode);
1435 setup_plane_fifo(1, ext_mode);
1436 setup_plane_fifo(2, ext_mode);
1437
1438 setup_color_conv_coef();
1439
1440 set_lcd_tft_mode(panel->config & OMAP_LCDC_PANEL_TFT);
1441 set_load_mode(DISPC_LOAD_FRAME_ONLY);
1442
1443 if (!ext_mode) {
1444 set_lcd_data_lines(panel->data_lines);
1445 omap_dispc_set_lcd_size(panel->x_res, panel->y_res);
1446 set_lcd_timings();
1447 } else
1448 set_lcd_data_lines(panel->bpp);
1449 enable_rfbi_mode(ext_mode);
1450 }
1451
1452 l = dispc_read_reg(DISPC_REVISION);
1453 pr_info("omapfb: DISPC version %d.%d initialized\n",
1454 l >> 4 & 0x0f, l & 0x0f);
1455 enable_lcd_clocks(0);
1456
1457 return 0;
1458fail3:
1459 free_palette_ram();
1460fail2:
1461 free_irq(INT_24XX_DSS_IRQ, fbdev);
1462fail1:
1463 enable_lcd_clocks(0);
1464 enable_interface_clocks(0);
1465 put_dss_clocks();
1466
1467 return r;
1468}
1469
1470static void omap_dispc_cleanup(void)
1471{
1472 int i;
1473
1474 omap_dispc_set_update_mode(OMAPFB_UPDATE_DISABLED);
1475 /* This will also disable clocks that are on */
1476 for (i = 0; i < dispc.mem_desc.region_cnt; i++)
1477 omap_dispc_enable_plane(i, 0);
1478 cleanup_fbmem();
1479 free_palette_ram();
1480 free_irq(INT_24XX_DSS_IRQ, dispc.fbdev);
1481 enable_interface_clocks(0);
1482 put_dss_clocks();
1483}
1484
1485const struct lcd_ctrl omap2_int_ctrl = {
1486 .name = "internal",
1487 .init = omap_dispc_init,
1488 .cleanup = omap_dispc_cleanup,
1489 .get_caps = omap_dispc_get_caps,
1490 .set_update_mode = omap_dispc_set_update_mode,
1491 .get_update_mode = omap_dispc_get_update_mode,
1492 .update_window = omap_dispc_update_window,
1493 .suspend = omap_dispc_suspend,
1494 .resume = omap_dispc_resume,
1495 .setup_plane = omap_dispc_setup_plane,
1496 .setup_mem = omap_dispc_setup_mem,
1497 .set_scale = omap_dispc_set_scale,
1498 .enable_plane = omap_dispc_enable_plane,
1499 .set_color_key = omap_dispc_set_color_key,
1500 .get_color_key = omap_dispc_get_color_key,
1501 .mmap = omap_dispc_mmap_user,
1502};
diff --git a/drivers/video/omap/dispc.h b/drivers/video/omap/dispc.h
new file mode 100644
index 000000000000..eb1512b56ce8
--- /dev/null
+++ b/drivers/video/omap/dispc.h
@@ -0,0 +1,43 @@
1#ifndef _DISPC_H
2#define _DISPC_H
3
4#include <linux/interrupt.h>
5
6#define DISPC_PLANE_GFX 0
7#define DISPC_PLANE_VID1 1
8#define DISPC_PLANE_VID2 2
9
10#define DISPC_RGB_1_BPP 0x00
11#define DISPC_RGB_2_BPP 0x01
12#define DISPC_RGB_4_BPP 0x02
13#define DISPC_RGB_8_BPP 0x03
14#define DISPC_RGB_12_BPP 0x04
15#define DISPC_RGB_16_BPP 0x06
16#define DISPC_RGB_24_BPP 0x08
17#define DISPC_RGB_24_BPP_UNPACK_32 0x09
18#define DISPC_YUV2_422 0x0a
19#define DISPC_UYVY_422 0x0b
20
21#define DISPC_BURST_4x32 0
22#define DISPC_BURST_8x32 1
23#define DISPC_BURST_16x32 2
24
25#define DISPC_LOAD_CLUT_AND_FRAME 0x00
26#define DISPC_LOAD_CLUT_ONLY 0x01
27#define DISPC_LOAD_FRAME_ONLY 0x02
28#define DISPC_LOAD_CLUT_ONCE_FRAME 0x03
29
30#define DISPC_TFT_DATA_LINES_12 0
31#define DISPC_TFT_DATA_LINES_16 1
32#define DISPC_TFT_DATA_LINES_18 2
33#define DISPC_TFT_DATA_LINES_24 3
34
35extern void omap_dispc_set_lcd_size(int width, int height);
36
37extern void omap_dispc_enable_lcd_out(int enable);
38extern void omap_dispc_enable_digit_out(int enable);
39
40extern int omap_dispc_request_irq(void (*callback)(void *data), void *data);
41extern void omap_dispc_free_irq(void);
42
43#endif