1 #include <linux/kernel.h>
2 #include <media/saa7146_vv.h>
4 static void calculate_output_format_register(struct saa7146_dev
* saa
, u32 palette
, u32
* clip_format
)
6 /* clear out the necessary bits */
7 *clip_format
&= 0x0000ffff;
8 /* set these bits new */
9 *clip_format
|= (( ((palette
&0xf00)>>8) << 30) | ((palette
&0x00f) << 24) | (((palette
&0x0f0)>>4) << 16));
12 static void calculate_hps_source_and_sync(struct saa7146_dev
*dev
, int source
, int sync
, u32
* hps_ctrl
)
14 *hps_ctrl
&= ~(MASK_30
| MASK_31
| MASK_28
);
15 *hps_ctrl
|= (source
<< 30) | (sync
<< 28);
18 static void calculate_hxo_and_hyo(struct saa7146_vv
*vv
, u32
* hps_h_scale
, u32
* hps_ctrl
)
22 hyo
= vv
->standard
->v_offset
;
23 hxo
= vv
->standard
->h_offset
;
25 *hps_h_scale
&= ~(MASK_B0
| 0xf00);
26 *hps_h_scale
|= (hxo
<< 0);
28 *hps_ctrl
&= ~(MASK_W0
| MASK_B2
);
29 *hps_ctrl
|= (hyo
<< 12);
32 /* helper functions for the calculation of the horizontal- and vertical
33 scaling registers, clip-format-register etc ...
34 these functions take pointers to the (most-likely read-out
35 original-values) and manipulate them according to the requested
39 /* hps_coeff used for CXY and CXUV; scale 1/1 -> scale 1/64 */
43 } hps_h_coeff_tab
[] = {
44 {0x00, 2}, {0x02, 4}, {0x00, 4}, {0x06, 8}, {0x02, 8},
45 {0x08, 8}, {0x00, 8}, {0x1E, 16}, {0x0E, 8}, {0x26, 8},
46 {0x06, 8}, {0x42, 8}, {0x02, 8}, {0x80, 8}, {0x00, 8},
47 {0xFE, 16}, {0xFE, 8}, {0x7E, 8}, {0x7E, 8}, {0x3E, 8},
48 {0x3E, 8}, {0x1E, 8}, {0x1E, 8}, {0x0E, 8}, {0x0E, 8},
49 {0x06, 8}, {0x06, 8}, {0x02, 8}, {0x02, 8}, {0x00, 8},
50 {0x00, 8}, {0xFE, 16}, {0xFE, 8}, {0xFE, 8}, {0xFE, 8},
51 {0xFE, 8}, {0xFE, 8}, {0xFE, 8}, {0xFE, 8}, {0xFE, 8},
52 {0xFE, 8}, {0xFE, 8}, {0xFE, 8}, {0xFE, 8}, {0xFE, 8},
53 {0xFE, 8}, {0xFE, 8}, {0xFE, 8}, {0xFE, 8}, {0x7E, 8},
54 {0x7E, 8}, {0x3E, 8}, {0x3E, 8}, {0x1E, 8}, {0x1E, 8},
55 {0x0E, 8}, {0x0E, 8}, {0x06, 8}, {0x06, 8}, {0x02, 8},
56 {0x02, 8}, {0x00, 8}, {0x00, 8}, {0xFE, 16}
59 /* table of attenuation values for horizontal scaling */
60 static u8 h_attenuation
[] = { 1, 2, 4, 8, 2, 4, 8, 16, 0};
62 /* calculate horizontal scale registers */
63 static int calculate_h_scale_registers(struct saa7146_dev
*dev
,
64 int in_x
, int out_x
, int flip_lr
,
65 u32
* hps_ctrl
, u32
* hps_v_gain
, u32
* hps_h_prescale
, u32
* hps_h_scale
)
67 /* horizontal prescaler */
68 u32 dcgx
= 0, xpsc
= 0, xacm
= 0, cxy
= 0, cxuv
= 0;
69 /* horizontal scaler */
70 u32 xim
= 0, xp
= 0, xsci
=0;
71 /* vertical scale & gain */
74 /* helper variables */
75 u32 h_atten
= 0, i
= 0;
81 /* mask out vanity-bit */
82 *hps_ctrl
&= ~MASK_29
;
84 /* calculate prescale-(xspc)-value: [n .. 1/2) : 1
96 /* if flip_lr-bit is set, number of pixels after
97 horizontal prescaling must be < 384 */
101 *hps_ctrl
|= MASK_29
;
103 while (in_x
/ xpsc
>= 384 )
106 /* if zooming is wanted, number of pixels after
107 horizontal prescaling must be < 768 */
109 while ( in_x
/ xpsc
>= 768 )
113 /* maximum prescale is 64 (p.69) */
120 /* set horizontal filter parameters (CXY = CXUV) */
121 cxy
= hps_h_coeff_tab
[( (xpsc
- 1) < 63 ? (xpsc
- 1) : 63 )].hps_coeff
;
124 /* calculate and set horizontal fine scale (xsci) */
126 /* bypass the horizontal scaler ? */
127 if ( (in_x
== out_x
) && ( 1 == xpsc
) )
130 xsci
= ( (1024 * in_x
) / (out_x
* xpsc
) ) + xpsc
;
132 /* set start phase for horizontal fine scale (xp) to 0 */
135 /* set xim, if we bypass the horizontal scaler */
141 /* if the prescaler is bypassed, enable horizontal
142 accumulation mode (xacm) and clear dcgx */
148 /* get best match in the table of attenuations
149 for horizontal scaling */
150 h_atten
= hps_h_coeff_tab
[( (xpsc
- 1) < 63 ? (xpsc
- 1) : 63 )].weight_sum
;
152 for (i
= 0; h_attenuation
[i
] != 0; i
++) {
153 if (h_attenuation
[i
] >= h_atten
)
160 /* the horizontal scaling increment controls the UV filter
161 to reduce the bandwidth to improve the display quality,
165 else if ( xsci
< 0x600)
167 else if ( xsci
< 0x680)
169 else if ( xsci
< 0x700)
175 *hps_v_gain
&= MASK_W0
|MASK_B2
;
176 *hps_v_gain
|= (pfuv
<< 24);
178 *hps_h_scale
&= ~(MASK_W1
| 0xf000);
179 *hps_h_scale
|= (xim
<< 31) | (xp
<< 24) | (xsci
<< 12);
181 *hps_h_prescale
|= (dcgx
<< 27) | ((xpsc
-1) << 18) | (xacm
<< 17) | (cxy
<< 8) | (cxuv
<< 0);
189 } hps_v_coeff_tab
[] = {
190 {0x0100, 2}, {0x0102, 4}, {0x0300, 4}, {0x0106, 8}, {0x0502, 8},
191 {0x0708, 8}, {0x0F00, 8}, {0x011E, 16}, {0x110E, 16}, {0x1926, 16},
192 {0x3906, 16}, {0x3D42, 16}, {0x7D02, 16}, {0x7F80, 16}, {0xFF00, 16},
193 {0x01FE, 32}, {0x01FE, 32}, {0x817E, 32}, {0x817E, 32}, {0xC13E, 32},
194 {0xC13E, 32}, {0xE11E, 32}, {0xE11E, 32}, {0xF10E, 32}, {0xF10E, 32},
195 {0xF906, 32}, {0xF906, 32}, {0xFD02, 32}, {0xFD02, 32}, {0xFF00, 32},
196 {0xFF00, 32}, {0x01FE, 64}, {0x01FE, 64}, {0x01FE, 64}, {0x01FE, 64},
197 {0x01FE, 64}, {0x01FE, 64}, {0x01FE, 64}, {0x01FE, 64}, {0x01FE, 64},
198 {0x01FE, 64}, {0x01FE, 64}, {0x01FE, 64}, {0x01FE, 64}, {0x01FE, 64},
199 {0x01FE, 64}, {0x01FE, 64}, {0x01FE, 64}, {0x01FE, 64}, {0x817E, 64},
200 {0x817E, 64}, {0xC13E, 64}, {0xC13E, 64}, {0xE11E, 64}, {0xE11E, 64},
201 {0xF10E, 64}, {0xF10E, 64}, {0xF906, 64}, {0xF906, 64}, {0xFD02, 64},
202 {0xFD02, 64}, {0xFF00, 64}, {0xFF00, 64}, {0x01FE, 128}
205 /* table of attenuation values for vertical scaling */
206 static u16 v_attenuation
[] = { 2, 4, 8, 16, 32, 64, 128, 256, 0};
208 /* calculate vertical scale registers */
209 static int calculate_v_scale_registers(struct saa7146_dev
*dev
, enum v4l2_field field
,
210 int in_y
, int out_y
, u32
* hps_v_scale
, u32
* hps_v_gain
)
214 /* vertical scaling */
215 u32 yacm
= 0, ysci
= 0, yacl
= 0, ypo
= 0, ype
= 0;
216 /* vertical scale & gain */
217 u32 dcgy
= 0, cya_cyb
= 0;
219 /* helper variables */
220 u32 v_atten
= 0, i
= 0;
222 /* error, if vertical zooming */
223 if ( in_y
< out_y
) {
227 /* linear phase interpolation may be used
228 if scaling is between 1 and 1/2 (both fields used)
229 or scaling is between 1/2 and 1/4 (if only one field is used) */
231 if (V4L2_FIELD_HAS_BOTH(field
)) {
232 if( 2*out_y
>= in_y
) {
235 } else if (field
== V4L2_FIELD_TOP
236 || field
== V4L2_FIELD_ALTERNATE
237 || field
== V4L2_FIELD_BOTTOM
) {
238 if( 4*out_y
>= in_y
) {
249 /* calculate scaling increment */
251 ysci
= ((1024 * in_y
) / (out_y
+ 1)) - 1024;
257 /* calculate ype and ypo */
259 ypo
= ype
+ (ysci
/ 64);
264 /* calculate scaling increment */
265 ysci
= (((10 * 1024 * (in_y
- out_y
- 1)) / in_y
) + 9) / 10;
267 /* calculate ype and ypo */
268 ypo
= ype
= ((ysci
+ 15) / 16);
270 /* the sequence length interval (yacl) has to be set according
271 to the prescale value, e.g. [n .. 1/2) : 0
278 yacl
= ( ysci
/ (1024 - ysci
) );
281 /* get filter coefficients for cya, cyb from table hps_v_coeff_tab */
282 cya_cyb
= hps_v_coeff_tab
[ (yacl
< 63 ? yacl
: 63 ) ].hps_coeff
;
284 /* get best match in the table of attenuations for vertical scaling */
285 v_atten
= hps_v_coeff_tab
[ (yacl
< 63 ? yacl
: 63 ) ].weight_sum
;
287 for (i
= 0; v_attenuation
[i
] != 0; i
++) {
288 if (v_attenuation
[i
] >= v_atten
)
295 /* ypo and ype swapped in spec ? */
296 *hps_v_scale
|= (yacm
<< 31) | (ysci
<< 21) | (yacl
<< 15) | (ypo
<< 8 ) | (ype
<< 1);
298 *hps_v_gain
&= ~(MASK_W0
|MASK_B2
);
299 *hps_v_gain
|= (dcgy
<< 16) | (cya_cyb
<< 0);
304 /* simple bubble-sort algorithm with duplicate elimination */
305 static int sort_and_eliminate(u32
* values
, int* count
)
307 int low
= 0, high
= 0, top
= 0, temp
= 0;
308 int cur
= 0, next
= 0;
311 if( (0 > *count
) || (NULL
== values
) ) {
315 /* bubble sort the first @count items of the array @values */
316 for( top
= *count
; top
> 0; top
--) {
317 for( low
= 0, high
= 1; high
< top
; low
++, high
++) {
318 if( values
[low
] > values
[high
] ) {
320 values
[low
] = values
[high
];
326 /* remove duplicate items */
327 for( cur
= 0, next
= 1; next
< *count
; next
++) {
328 if( values
[cur
] != values
[next
])
329 values
[++cur
] = values
[next
];
337 static void calculate_clipping_registers_rect(struct saa7146_dev
*dev
, struct saa7146_fh
*fh
,
338 struct saa7146_video_dma
*vdma2
, u32
* clip_format
, u32
* arbtr_ctrl
, enum v4l2_field field
)
340 struct saa7146_vv
*vv
= dev
->vv_data
;
341 u32
*clipping
= vv
->d_clipping
.cpu_addr
;
343 int width
= fh
->ov
.win
.w
.width
;
344 int height
= fh
->ov
.win
.w
.height
;
345 int clipcount
= fh
->ov
.nclips
;
352 int cnt_line
= 0, cnt_pixel
= 0;
354 int x
[32], y
[32], w
[32], h
[32];
356 /* clear out memory */
357 memset(&line_list
[0], 0x00, sizeof(u32
)*32);
358 memset(&pixel_list
[0], 0x00, sizeof(u32
)*32);
359 memset(clipping
, 0x00, SAA7146_CLIPPING_MEM
);
361 /* fill the line and pixel-lists */
362 for(i
= 0; i
< clipcount
; i
++) {
363 int l
= 0, r
= 0, t
= 0, b
= 0;
365 x
[i
] = fh
->ov
.clips
[i
].c
.left
;
366 y
[i
] = fh
->ov
.clips
[i
].c
.top
;
367 w
[i
] = fh
->ov
.clips
[i
].c
.width
;
368 h
[i
] = fh
->ov
.clips
[i
].c
.height
;
371 x
[i
] += w
[i
]; w
[i
] = -w
[i
];
374 y
[i
] += h
[i
]; h
[i
] = -h
[i
];
377 w
[i
] += x
[i
]; x
[i
] = 0;
380 h
[i
] += y
[i
]; y
[i
] = 0;
382 if( 0 != vv
->vflip
) {
383 y
[i
] = height
- y
[i
] - h
[i
];
391 /* insert left/right coordinates */
392 pixel_list
[ 2*i
] = min_t(int, l
, width
);
393 pixel_list
[(2*i
)+1] = min_t(int, r
, width
);
394 /* insert top/bottom coordinates */
395 line_list
[ 2*i
] = min_t(int, t
, height
);
396 line_list
[(2*i
)+1] = min_t(int, b
, height
);
399 /* sort and eliminate lists */
400 cnt_line
= cnt_pixel
= 2*clipcount
;
401 sort_and_eliminate( &pixel_list
[0], &cnt_pixel
);
402 sort_and_eliminate( &line_list
[0], &cnt_line
);
404 /* calculate the number of used u32s */
405 numdwords
= max_t(int, (cnt_line
+1), (cnt_pixel
+1))*2;
406 numdwords
= max_t(int, 4, numdwords
);
407 numdwords
= min_t(int, 64, numdwords
);
409 /* fill up cliptable */
410 for(i
= 0; i
< cnt_pixel
; i
++) {
411 clipping
[2*i
] |= cpu_to_le32(pixel_list
[i
] << 16);
413 for(i
= 0; i
< cnt_line
; i
++) {
414 clipping
[(2*i
)+1] |= cpu_to_le32(line_list
[i
] << 16);
417 /* fill up cliptable with the display infos */
418 for(j
= 0; j
< clipcount
; j
++) {
420 for(i
= 0; i
< cnt_pixel
; i
++) {
425 if( pixel_list
[i
] < (x
[j
] + w
[j
])) {
427 if ( pixel_list
[i
] >= x
[j
] ) {
428 clipping
[2*i
] |= cpu_to_le32(1 << j
);
432 for(i
= 0; i
< cnt_line
; i
++) {
437 if( line_list
[i
] < (y
[j
] + h
[j
]) ) {
439 if( line_list
[i
] >= y
[j
] ) {
440 clipping
[(2*i
)+1] |= cpu_to_le32(1 << j
);
446 /* adjust arbitration control register */
447 *arbtr_ctrl
&= 0xffff00ff;
448 *arbtr_ctrl
|= 0x00001c00;
450 vdma2
->base_even
= vv
->d_clipping
.dma_handle
;
451 vdma2
->base_odd
= vv
->d_clipping
.dma_handle
;
452 vdma2
->prot_addr
= vv
->d_clipping
.dma_handle
+((sizeof(u32
))*(numdwords
));
453 vdma2
->base_page
= 0x04;
455 vdma2
->num_line_byte
= (0 << 16 | (sizeof(u32
))*(numdwords
-1) );
457 /* set clipping-mode. this depends on the field(s) used */
458 *clip_format
&= 0xfffffff7;
459 if (V4L2_FIELD_HAS_BOTH(field
)) {
460 *clip_format
|= 0x00000008;
462 *clip_format
|= 0x00000000;
466 /* disable clipping */
467 static void saa7146_disable_clipping(struct saa7146_dev
*dev
)
469 u32 clip_format
= saa7146_read(dev
, CLIP_FORMAT_CTRL
);
471 /* mask out relevant bits (=lower word)*/
472 clip_format
&= MASK_W1
;
474 /* upload clipping-registers*/
475 saa7146_write(dev
, CLIP_FORMAT_CTRL
,clip_format
);
476 saa7146_write(dev
, MC2
, (MASK_05
| MASK_21
));
478 /* disable video dma2 */
479 saa7146_write(dev
, MC1
, MASK_21
);
482 static void saa7146_set_clipping_rect(struct saa7146_fh
*fh
)
484 struct saa7146_dev
*dev
= fh
->dev
;
485 enum v4l2_field field
= fh
->ov
.win
.field
;
486 struct saa7146_video_dma vdma2
;
490 /* check clipcount, disable clipping if clipcount == 0*/
491 if( fh
->ov
.nclips
== 0 ) {
492 saa7146_disable_clipping(dev
);
496 clip_format
= saa7146_read(dev
, CLIP_FORMAT_CTRL
);
497 arbtr_ctrl
= saa7146_read(dev
, PCI_BT_V1
);
499 calculate_clipping_registers_rect(dev
, fh
, &vdma2
, &clip_format
, &arbtr_ctrl
, field
);
501 /* set clipping format */
502 clip_format
&= 0xffff0008;
503 clip_format
|= (SAA7146_CLIPPING_RECT
<< 4);
505 /* prepare video dma2 */
506 saa7146_write(dev
, BASE_EVEN2
, vdma2
.base_even
);
507 saa7146_write(dev
, BASE_ODD2
, vdma2
.base_odd
);
508 saa7146_write(dev
, PROT_ADDR2
, vdma2
.prot_addr
);
509 saa7146_write(dev
, BASE_PAGE2
, vdma2
.base_page
);
510 saa7146_write(dev
, PITCH2
, vdma2
.pitch
);
511 saa7146_write(dev
, NUM_LINE_BYTE2
, vdma2
.num_line_byte
);
513 /* prepare the rest */
514 saa7146_write(dev
, CLIP_FORMAT_CTRL
,clip_format
);
515 saa7146_write(dev
, PCI_BT_V1
, arbtr_ctrl
);
517 /* upload clip_control-register, clipping-registers, enable video dma2 */
518 saa7146_write(dev
, MC2
, (MASK_05
| MASK_21
| MASK_03
| MASK_19
));
519 saa7146_write(dev
, MC1
, (MASK_05
| MASK_21
));
522 static void saa7146_set_window(struct saa7146_dev
*dev
, int width
, int height
, enum v4l2_field field
)
524 struct saa7146_vv
*vv
= dev
->vv_data
;
526 int source
= vv
->current_hps_source
;
527 int sync
= vv
->current_hps_sync
;
529 u32 hps_v_scale
= 0, hps_v_gain
= 0, hps_ctrl
= 0, hps_h_prescale
= 0, hps_h_scale
= 0;
531 /* set vertical scale */
532 hps_v_scale
= 0; /* all bits get set by the function-call */
533 hps_v_gain
= 0; /* fixme: saa7146_read(dev, HPS_V_GAIN);*/
534 calculate_v_scale_registers(dev
, field
, vv
->standard
->v_field
*2, height
, &hps_v_scale
, &hps_v_gain
);
536 /* set horizontal scale */
538 hps_h_prescale
= 0; /* all bits get set in the function */
540 calculate_h_scale_registers(dev
, vv
->standard
->h_pixels
, width
, vv
->hflip
, &hps_ctrl
, &hps_v_gain
, &hps_h_prescale
, &hps_h_scale
);
542 /* set hyo and hxo */
543 calculate_hxo_and_hyo(vv
, &hps_h_scale
, &hps_ctrl
);
544 calculate_hps_source_and_sync(dev
, source
, sync
, &hps_ctrl
);
546 /* write out new register contents */
547 saa7146_write(dev
, HPS_V_SCALE
, hps_v_scale
);
548 saa7146_write(dev
, HPS_V_GAIN
, hps_v_gain
);
549 saa7146_write(dev
, HPS_CTRL
, hps_ctrl
);
550 saa7146_write(dev
, HPS_H_PRESCALE
,hps_h_prescale
);
551 saa7146_write(dev
, HPS_H_SCALE
, hps_h_scale
);
553 /* upload shadow-ram registers */
554 saa7146_write(dev
, MC2
, (MASK_05
| MASK_06
| MASK_21
| MASK_22
) );
557 /* calculate the new memory offsets for a desired position */
558 static void saa7146_set_position(struct saa7146_dev
*dev
, int w_x
, int w_y
, int w_height
, enum v4l2_field field
, u32 pixelformat
)
560 struct saa7146_vv
*vv
= dev
->vv_data
;
561 struct saa7146_format
*sfmt
= format_by_fourcc(dev
, pixelformat
);
563 int b_depth
= vv
->ov_fmt
->depth
;
564 int b_bpl
= vv
->ov_fb
.fmt
.bytesperline
;
565 /* The unsigned long cast is to remove a 64-bit compile warning since
566 it looks like a 64-bit address is cast to a 32-bit value, even
567 though the base pointer is really a 32-bit physical address that
568 goes into a 32-bit DMA register.
569 FIXME: might not work on some 64-bit platforms, but see the FIXME
570 in struct v4l2_framebuffer (videodev2.h) for that.
572 u32 base
= (u32
)(unsigned long)vv
->ov_fb
.base
;
574 struct saa7146_video_dma vdma1
;
576 /* calculate memory offsets for picture, look if we shall top-down-flip */
577 vdma1
.pitch
= 2*b_bpl
;
578 if ( 0 == vv
->vflip
) {
579 vdma1
.base_even
= base
+ (w_y
* (vdma1
.pitch
/2)) + (w_x
* (b_depth
/ 8));
580 vdma1
.base_odd
= vdma1
.base_even
+ (vdma1
.pitch
/ 2);
581 vdma1
.prot_addr
= vdma1
.base_even
+ (w_height
* (vdma1
.pitch
/ 2));
584 vdma1
.base_even
= base
+ ((w_y
+w_height
) * (vdma1
.pitch
/2)) + (w_x
* (b_depth
/ 8));
585 vdma1
.base_odd
= vdma1
.base_even
- (vdma1
.pitch
/ 2);
586 vdma1
.prot_addr
= vdma1
.base_odd
- (w_height
* (vdma1
.pitch
/ 2));
589 if (V4L2_FIELD_HAS_BOTH(field
)) {
590 } else if (field
== V4L2_FIELD_ALTERNATE
) {
592 vdma1
.base_odd
= vdma1
.prot_addr
;
594 } else if (field
== V4L2_FIELD_TOP
) {
595 vdma1
.base_odd
= vdma1
.prot_addr
;
597 } else if (field
== V4L2_FIELD_BOTTOM
) {
598 vdma1
.base_odd
= vdma1
.base_even
;
599 vdma1
.base_even
= vdma1
.prot_addr
;
603 if ( 0 != vv
->vflip
) {
607 vdma1
.base_page
= sfmt
->swap
;
608 vdma1
.num_line_byte
= (vv
->standard
->v_field
<<16)+vv
->standard
->h_pixels
;
610 saa7146_write_out_dma(dev
, 1, &vdma1
);
613 static void saa7146_set_output_format(struct saa7146_dev
*dev
, unsigned long palette
)
615 u32 clip_format
= saa7146_read(dev
, CLIP_FORMAT_CTRL
);
617 /* call helper function */
618 calculate_output_format_register(dev
,palette
,&clip_format
);
620 /* update the hps registers */
621 saa7146_write(dev
, CLIP_FORMAT_CTRL
, clip_format
);
622 saa7146_write(dev
, MC2
, (MASK_05
| MASK_21
));
625 /* select input-source */
626 void saa7146_set_hps_source_and_sync(struct saa7146_dev
*dev
, int source
, int sync
)
628 struct saa7146_vv
*vv
= dev
->vv_data
;
632 hps_ctrl
= saa7146_read(dev
, HPS_CTRL
);
634 hps_ctrl
&= ~( MASK_31
| MASK_30
| MASK_28
);
635 hps_ctrl
|= (source
<< 30) | (sync
<< 28);
637 /* write back & upload register */
638 saa7146_write(dev
, HPS_CTRL
, hps_ctrl
);
639 saa7146_write(dev
, MC2
, (MASK_05
| MASK_21
));
641 vv
->current_hps_source
= source
;
642 vv
->current_hps_sync
= sync
;
644 EXPORT_SYMBOL_GPL(saa7146_set_hps_source_and_sync
);
646 int saa7146_enable_overlay(struct saa7146_fh
*fh
)
648 struct saa7146_dev
*dev
= fh
->dev
;
649 struct saa7146_vv
*vv
= dev
->vv_data
;
651 saa7146_set_window(dev
, fh
->ov
.win
.w
.width
, fh
->ov
.win
.w
.height
, fh
->ov
.win
.field
);
652 saa7146_set_position(dev
, fh
->ov
.win
.w
.left
, fh
->ov
.win
.w
.top
, fh
->ov
.win
.w
.height
, fh
->ov
.win
.field
, vv
->ov_fmt
->pixelformat
);
653 saa7146_set_output_format(dev
, vv
->ov_fmt
->trans
);
654 saa7146_set_clipping_rect(fh
);
656 /* enable video dma1 */
657 saa7146_write(dev
, MC1
, (MASK_06
| MASK_22
));
661 void saa7146_disable_overlay(struct saa7146_fh
*fh
)
663 struct saa7146_dev
*dev
= fh
->dev
;
665 /* disable clipping + video dma1 */
666 saa7146_disable_clipping(dev
);
667 saa7146_write(dev
, MC1
, MASK_22
);
670 void saa7146_write_out_dma(struct saa7146_dev
* dev
, int which
, struct saa7146_video_dma
* vdma
)
674 if( which
< 1 || which
> 3) {
678 /* calculate starting address */
679 where
= (which
-1)*0x18;
681 saa7146_write(dev
, where
, vdma
->base_odd
);
682 saa7146_write(dev
, where
+0x04, vdma
->base_even
);
683 saa7146_write(dev
, where
+0x08, vdma
->prot_addr
);
684 saa7146_write(dev
, where
+0x0c, vdma
->pitch
);
685 saa7146_write(dev
, where
+0x10, vdma
->base_page
);
686 saa7146_write(dev
, where
+0x14, vdma
->num_line_byte
);
689 saa7146_write(dev
, MC2
, (MASK_02
<<(which
-1))|(MASK_18
<<(which
-1)));
691 printk("vdma%d.base_even: 0x%08x\n", which,vdma->base_even);
692 printk("vdma%d.base_odd: 0x%08x\n", which,vdma->base_odd);
693 printk("vdma%d.prot_addr: 0x%08x\n", which,vdma->prot_addr);
694 printk("vdma%d.base_page: 0x%08x\n", which,vdma->base_page);
695 printk("vdma%d.pitch: 0x%08x\n", which,vdma->pitch);
696 printk("vdma%d.num_line_byte: 0x%08x\n", which,vdma->num_line_byte);
700 static int calculate_video_dma_grab_packed(struct saa7146_dev
* dev
, struct saa7146_buf
*buf
)
702 struct saa7146_vv
*vv
= dev
->vv_data
;
703 struct saa7146_video_dma vdma1
;
705 struct saa7146_format
*sfmt
= format_by_fourcc(dev
,buf
->fmt
->pixelformat
);
707 int width
= buf
->fmt
->width
;
708 int height
= buf
->fmt
->height
;
709 int bytesperline
= buf
->fmt
->bytesperline
;
710 enum v4l2_field field
= buf
->fmt
->field
;
712 int depth
= sfmt
->depth
;
714 DEB_CAP(("[size=%dx%d,fields=%s]\n",
715 width
,height
,v4l2_field_names
[field
]));
717 if( bytesperline
!= 0) {
718 vdma1
.pitch
= bytesperline
*2;
720 vdma1
.pitch
= (width
*depth
*2)/8;
722 vdma1
.num_line_byte
= ((vv
->standard
->v_field
<<16) + vv
->standard
->h_pixels
);
723 vdma1
.base_page
= buf
->pt
[0].dma
| ME1
| sfmt
->swap
;
725 if( 0 != vv
->vflip
) {
726 vdma1
.prot_addr
= buf
->pt
[0].offset
;
727 vdma1
.base_even
= buf
->pt
[0].offset
+(vdma1
.pitch
/2)*height
;
728 vdma1
.base_odd
= vdma1
.base_even
- (vdma1
.pitch
/2);
730 vdma1
.base_even
= buf
->pt
[0].offset
;
731 vdma1
.base_odd
= vdma1
.base_even
+ (vdma1
.pitch
/2);
732 vdma1
.prot_addr
= buf
->pt
[0].offset
+(vdma1
.pitch
/2)*height
;
735 if (V4L2_FIELD_HAS_BOTH(field
)) {
736 } else if (field
== V4L2_FIELD_ALTERNATE
) {
738 if ( vv
->last_field
== V4L2_FIELD_TOP
) {
739 vdma1
.base_odd
= vdma1
.prot_addr
;
741 } else if ( vv
->last_field
== V4L2_FIELD_BOTTOM
) {
742 vdma1
.base_odd
= vdma1
.base_even
;
743 vdma1
.base_even
= vdma1
.prot_addr
;
746 } else if (field
== V4L2_FIELD_TOP
) {
747 vdma1
.base_odd
= vdma1
.prot_addr
;
749 } else if (field
== V4L2_FIELD_BOTTOM
) {
750 vdma1
.base_odd
= vdma1
.base_even
;
751 vdma1
.base_even
= vdma1
.prot_addr
;
755 if( 0 != vv
->vflip
) {
759 saa7146_write_out_dma(dev
, 1, &vdma1
);
763 static int calc_planar_422(struct saa7146_vv
*vv
, struct saa7146_buf
*buf
, struct saa7146_video_dma
*vdma2
, struct saa7146_video_dma
*vdma3
)
765 int height
= buf
->fmt
->height
;
766 int width
= buf
->fmt
->width
;
768 vdma2
->pitch
= width
;
769 vdma3
->pitch
= width
;
771 /* fixme: look at bytesperline! */
773 if( 0 != vv
->vflip
) {
774 vdma2
->prot_addr
= buf
->pt
[1].offset
;
775 vdma2
->base_even
= ((vdma2
->pitch
/2)*height
)+buf
->pt
[1].offset
;
776 vdma2
->base_odd
= vdma2
->base_even
- (vdma2
->pitch
/2);
778 vdma3
->prot_addr
= buf
->pt
[2].offset
;
779 vdma3
->base_even
= ((vdma3
->pitch
/2)*height
)+buf
->pt
[2].offset
;
780 vdma3
->base_odd
= vdma3
->base_even
- (vdma3
->pitch
/2);
782 vdma3
->base_even
= buf
->pt
[2].offset
;
783 vdma3
->base_odd
= vdma3
->base_even
+ (vdma3
->pitch
/2);
784 vdma3
->prot_addr
= (vdma3
->pitch
/2)*height
+buf
->pt
[2].offset
;
786 vdma2
->base_even
= buf
->pt
[1].offset
;
787 vdma2
->base_odd
= vdma2
->base_even
+ (vdma2
->pitch
/2);
788 vdma2
->prot_addr
= (vdma2
->pitch
/2)*height
+buf
->pt
[1].offset
;
794 static int calc_planar_420(struct saa7146_vv
*vv
, struct saa7146_buf
*buf
, struct saa7146_video_dma
*vdma2
, struct saa7146_video_dma
*vdma3
)
796 int height
= buf
->fmt
->height
;
797 int width
= buf
->fmt
->width
;
799 vdma2
->pitch
= width
/2;
800 vdma3
->pitch
= width
/2;
802 if( 0 != vv
->vflip
) {
803 vdma2
->prot_addr
= buf
->pt
[2].offset
;
804 vdma2
->base_even
= ((vdma2
->pitch
/2)*height
)+buf
->pt
[2].offset
;
805 vdma2
->base_odd
= vdma2
->base_even
- (vdma2
->pitch
/2);
807 vdma3
->prot_addr
= buf
->pt
[1].offset
;
808 vdma3
->base_even
= ((vdma3
->pitch
/2)*height
)+buf
->pt
[1].offset
;
809 vdma3
->base_odd
= vdma3
->base_even
- (vdma3
->pitch
/2);
812 vdma3
->base_even
= buf
->pt
[2].offset
;
813 vdma3
->base_odd
= vdma3
->base_even
+ (vdma3
->pitch
);
814 vdma3
->prot_addr
= (vdma3
->pitch
/2)*height
+buf
->pt
[2].offset
;
816 vdma2
->base_even
= buf
->pt
[1].offset
;
817 vdma2
->base_odd
= vdma2
->base_even
+ (vdma2
->pitch
);
818 vdma2
->prot_addr
= (vdma2
->pitch
/2)*height
+buf
->pt
[1].offset
;
823 static int calculate_video_dma_grab_planar(struct saa7146_dev
* dev
, struct saa7146_buf
*buf
)
825 struct saa7146_vv
*vv
= dev
->vv_data
;
826 struct saa7146_video_dma vdma1
;
827 struct saa7146_video_dma vdma2
;
828 struct saa7146_video_dma vdma3
;
830 struct saa7146_format
*sfmt
= format_by_fourcc(dev
,buf
->fmt
->pixelformat
);
832 int width
= buf
->fmt
->width
;
833 int height
= buf
->fmt
->height
;
834 enum v4l2_field field
= buf
->fmt
->field
;
836 BUG_ON(0 == buf
->pt
[0].dma
);
837 BUG_ON(0 == buf
->pt
[1].dma
);
838 BUG_ON(0 == buf
->pt
[2].dma
);
840 DEB_CAP(("[size=%dx%d,fields=%s]\n",
841 width
,height
,v4l2_field_names
[field
]));
843 /* fixme: look at bytesperline! */
845 /* fixme: what happens for user space buffers here?. The offsets are
846 most likely wrong, this version here only works for page-aligned
847 buffers, modifications to the pagetable-functions are necessary...*/
849 vdma1
.pitch
= width
*2;
850 vdma1
.num_line_byte
= ((vv
->standard
->v_field
<<16) + vv
->standard
->h_pixels
);
851 vdma1
.base_page
= buf
->pt
[0].dma
| ME1
;
853 if( 0 != vv
->vflip
) {
854 vdma1
.prot_addr
= buf
->pt
[0].offset
;
855 vdma1
.base_even
= ((vdma1
.pitch
/2)*height
)+buf
->pt
[0].offset
;
856 vdma1
.base_odd
= vdma1
.base_even
- (vdma1
.pitch
/2);
858 vdma1
.base_even
= buf
->pt
[0].offset
;
859 vdma1
.base_odd
= vdma1
.base_even
+ (vdma1
.pitch
/2);
860 vdma1
.prot_addr
= (vdma1
.pitch
/2)*height
+buf
->pt
[0].offset
;
863 vdma2
.num_line_byte
= 0; /* unused */
864 vdma2
.base_page
= buf
->pt
[1].dma
| ME1
;
866 vdma3
.num_line_byte
= 0; /* unused */
867 vdma3
.base_page
= buf
->pt
[2].dma
| ME1
;
869 switch( sfmt
->depth
) {
871 calc_planar_420(vv
,buf
,&vdma2
,&vdma3
);
875 calc_planar_422(vv
,buf
,&vdma2
,&vdma3
);
883 if (V4L2_FIELD_HAS_BOTH(field
)) {
884 } else if (field
== V4L2_FIELD_ALTERNATE
) {
886 vdma1
.base_odd
= vdma1
.prot_addr
;
888 vdma2
.base_odd
= vdma2
.prot_addr
;
890 vdma3
.base_odd
= vdma3
.prot_addr
;
892 } else if (field
== V4L2_FIELD_TOP
) {
893 vdma1
.base_odd
= vdma1
.prot_addr
;
895 vdma2
.base_odd
= vdma2
.prot_addr
;
897 vdma3
.base_odd
= vdma3
.prot_addr
;
899 } else if (field
== V4L2_FIELD_BOTTOM
) {
900 vdma1
.base_odd
= vdma1
.base_even
;
901 vdma1
.base_even
= vdma1
.prot_addr
;
903 vdma2
.base_odd
= vdma2
.base_even
;
904 vdma2
.base_even
= vdma2
.prot_addr
;
906 vdma3
.base_odd
= vdma3
.base_even
;
907 vdma3
.base_even
= vdma3
.prot_addr
;
911 if( 0 != vv
->vflip
) {
917 saa7146_write_out_dma(dev
, 1, &vdma1
);
918 if( (sfmt
->flags
& FORMAT_BYTE_SWAP
) != 0 ) {
919 saa7146_write_out_dma(dev
, 3, &vdma2
);
920 saa7146_write_out_dma(dev
, 2, &vdma3
);
922 saa7146_write_out_dma(dev
, 2, &vdma2
);
923 saa7146_write_out_dma(dev
, 3, &vdma3
);
928 static void program_capture_engine(struct saa7146_dev
*dev
, int planar
)
930 struct saa7146_vv
*vv
= dev
->vv_data
;
933 unsigned long e_wait
= vv
->current_hps_sync
== SAA7146_HPS_SYNC_PORT_A
? CMD_E_FID_A
: CMD_E_FID_B
;
934 unsigned long o_wait
= vv
->current_hps_sync
== SAA7146_HPS_SYNC_PORT_A
? CMD_O_FID_A
: CMD_O_FID_B
;
936 /* wait for o_fid_a/b / e_fid_a/b toggle only if rps register 0 is not set*/
937 WRITE_RPS0(CMD_PAUSE
| CMD_OAN
| CMD_SIG0
| o_wait
);
938 WRITE_RPS0(CMD_PAUSE
| CMD_OAN
| CMD_SIG0
| e_wait
);
940 /* set rps register 0 */
941 WRITE_RPS0(CMD_WR_REG
| (1 << 8) | (MC2
/4));
942 WRITE_RPS0(MASK_27
| MASK_11
);
944 /* turn on video-dma1 */
945 WRITE_RPS0(CMD_WR_REG_MASK
| (MC1
/4));
946 WRITE_RPS0(MASK_06
| MASK_22
); /* => mask */
947 WRITE_RPS0(MASK_06
| MASK_22
); /* => values */
949 /* turn on video-dma2 */
950 WRITE_RPS0(CMD_WR_REG_MASK
| (MC1
/4));
951 WRITE_RPS0(MASK_05
| MASK_21
); /* => mask */
952 WRITE_RPS0(MASK_05
| MASK_21
); /* => values */
954 /* turn on video-dma3 */
955 WRITE_RPS0(CMD_WR_REG_MASK
| (MC1
/4));
956 WRITE_RPS0(MASK_04
| MASK_20
); /* => mask */
957 WRITE_RPS0(MASK_04
| MASK_20
); /* => values */
960 /* wait for o_fid_a/b / e_fid_a/b toggle */
961 if ( vv
->last_field
== V4L2_FIELD_INTERLACED
) {
962 WRITE_RPS0(CMD_PAUSE
| o_wait
);
963 WRITE_RPS0(CMD_PAUSE
| e_wait
);
964 } else if ( vv
->last_field
== V4L2_FIELD_TOP
) {
965 WRITE_RPS0(CMD_PAUSE
| (vv
->current_hps_sync
== SAA7146_HPS_SYNC_PORT_A
? MASK_10
: MASK_09
));
966 WRITE_RPS0(CMD_PAUSE
| o_wait
);
967 } else if ( vv
->last_field
== V4L2_FIELD_BOTTOM
) {
968 WRITE_RPS0(CMD_PAUSE
| (vv
->current_hps_sync
== SAA7146_HPS_SYNC_PORT_A
? MASK_10
: MASK_09
));
969 WRITE_RPS0(CMD_PAUSE
| e_wait
);
972 /* turn off video-dma1 */
973 WRITE_RPS0(CMD_WR_REG_MASK
| (MC1
/4));
974 WRITE_RPS0(MASK_22
| MASK_06
); /* => mask */
975 WRITE_RPS0(MASK_22
); /* => values */
977 /* turn off video-dma2 */
978 WRITE_RPS0(CMD_WR_REG_MASK
| (MC1
/4));
979 WRITE_RPS0(MASK_05
| MASK_21
); /* => mask */
980 WRITE_RPS0(MASK_21
); /* => values */
982 /* turn off video-dma3 */
983 WRITE_RPS0(CMD_WR_REG_MASK
| (MC1
/4));
984 WRITE_RPS0(MASK_04
| MASK_20
); /* => mask */
985 WRITE_RPS0(MASK_20
); /* => values */
988 /* generate interrupt */
989 WRITE_RPS0(CMD_INTERRUPT
);
992 WRITE_RPS0(CMD_STOP
);
995 void saa7146_set_capture(struct saa7146_dev
*dev
, struct saa7146_buf
*buf
, struct saa7146_buf
*next
)
997 struct saa7146_format
*sfmt
= format_by_fourcc(dev
,buf
->fmt
->pixelformat
);
998 struct saa7146_vv
*vv
= dev
->vv_data
;
1001 DEB_CAP(("buf:%p, next:%p\n",buf
,next
));
1003 vdma1_prot_addr
= saa7146_read(dev
, PROT_ADDR1
);
1004 if( 0 == vdma1_prot_addr
) {
1005 /* clear out beginning of streaming bit (rps register 0)*/
1006 DEB_CAP(("forcing sync to new frame\n"));
1007 saa7146_write(dev
, MC2
, MASK_27
);
1010 saa7146_set_window(dev
, buf
->fmt
->width
, buf
->fmt
->height
, buf
->fmt
->field
);
1011 saa7146_set_output_format(dev
, sfmt
->trans
);
1012 saa7146_disable_clipping(dev
);
1014 if ( vv
->last_field
== V4L2_FIELD_INTERLACED
) {
1015 } else if ( vv
->last_field
== V4L2_FIELD_TOP
) {
1016 vv
->last_field
= V4L2_FIELD_BOTTOM
;
1017 } else if ( vv
->last_field
== V4L2_FIELD_BOTTOM
) {
1018 vv
->last_field
= V4L2_FIELD_TOP
;
1021 if( 0 != IS_PLANAR(sfmt
->trans
)) {
1022 calculate_video_dma_grab_planar(dev
, buf
);
1023 program_capture_engine(dev
,1);
1025 calculate_video_dma_grab_packed(dev
, buf
);
1026 program_capture_engine(dev
,0);
1030 printk("vdma%d.base_even: 0x%08x\n", 1,saa7146_read(dev,BASE_EVEN1));
1031 printk("vdma%d.base_odd: 0x%08x\n", 1,saa7146_read(dev,BASE_ODD1));
1032 printk("vdma%d.prot_addr: 0x%08x\n", 1,saa7146_read(dev,PROT_ADDR1));
1033 printk("vdma%d.base_page: 0x%08x\n", 1,saa7146_read(dev,BASE_PAGE1));
1034 printk("vdma%d.pitch: 0x%08x\n", 1,saa7146_read(dev,PITCH1));
1035 printk("vdma%d.num_line_byte: 0x%08x\n", 1,saa7146_read(dev,NUM_LINE_BYTE1));
1036 printk("vdma%d => vptr : 0x%08x\n", 1,saa7146_read(dev,PCI_VDP1));
1039 /* write the address of the rps-program */
1040 saa7146_write(dev
, RPS_ADDR0
, dev
->d_rps0
.dma_handle
);
1043 saa7146_write(dev
, MC1
, (MASK_12
| MASK_28
));