RTEMS 6.1-rc4
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edid.h
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1
16/*
17 * Copyright (C) 2014 Jan Doležal (dolezj21@fel.cvut.cz)
18 * CTU in Prague.
19 *
20 * The license and distribution terms for this file may be
21 * found in the file LICENSE in this distribution or at
22 * http://www.rtems.org/license/LICENSE.
23 */
24
25#ifndef _EDID_H
26#define _EDID_H
27
28#ifndef ASM /* ASM */
29
30#include <stdint.h>
31
32#ifdef __cplusplus
33extern "C" {
34#endif /* __cplusplus */
35
37#define EDID_INLINE_ROUTINE static inline
38
39/* VESA Enhanced Extended Display Identification Data (E-EDID) Proposed
40 Release A, March 27, 2007 */
41
42/* *** Detailed Timing Descriptor Flags *** */
43#define EDID1_DTD_Flag_InterlacedOff 7
44#define EDID1_DTD_Flag_InterlacedMask 0x1
45#define EDID1_DTD_Flag_StereoModeOff 0
46#define EDID1_DTD_Flag_StereoModeMask 0xC1
47/* values for stereo flag */
48#define EDID1_DTD_Stereo_FldSeqRightOnSync 0x40
49#define EDID1_DTD_Stereo_FldSeqLeftOnSync 0x80
50#define EDID1_DTD_Stereo_2wItlvdRightOnEven 0x41
51#define EDID1_DTD_Stereo_2wItlvdLeftOnEven 0x81
52#define EDID1_DTD_Stereo_4wInterleaved 0xC0
53#define EDID1_DTD_Stereo_SideBySideItlvd 0xC1
54/* Analog = 0, Digital = 1 */
55#define EDID1_DTD_Flag_DigitalOff 4
56#define EDID1_DTD_Flag_DigitalMask 0x1
57/* Analog */
58#define EDID1_DTD_BipolarAnalogComposSyncOff 3
59#define EDID1_DTD_BipolarAnalogComposSyncMask 0x1
60#define EDID1_DTD_WithSerrationsOff 2
61#define EDID1_DTD_WithSerrationsMask 0x1
62/* Digital */
63#define EDID1_DTD_DigitalSeparateSyncOff 3
64#define EDID1_DTD_DigitalSeparateSyncMask 0x1
65 /* when DigitalSeparateSync == 0 -> it is composite
66 and WithSerrations defined up in Analog part applies */
67#define EDID1_DTD_VerticalSyncIsPositiveOff 2
68#define EDID1_DTD_VerticalSyncIsPositiveMask 0x1
69#define EDID1_DTD_HorizontalSyncIsPositiveOff 1
70#define EDID1_DTD_HorizontalSyncIsPositiveMask 0x1
71
72typedef struct {
73 uint8_t PixelClock_div10000[2];
74 uint8_t HorizontalActiveLow;
75 uint8_t HorizontalBlankingLow;
76 uint8_t HorizontalBlanking_ActiveHigh;
77 uint8_t VerticalActiveLow;
78 uint8_t VerticalBlankingLow;
79 uint8_t VerticalBlanking_ActiveHigh;
80 uint8_t HorizontalSyncOffsetLow;
81 uint8_t HorizontalSyncPulseWidthLow;
82 uint8_t VerticalSyncPulseWidth_OffsetLow;
83 uint8_t Vert_Hor_SyncPulseWidth_Offset_High;
84 uint8_t HorizontalImageSizeLow;
85 uint8_t VerticalImageSizeLow;
86 uint8_t Vertical_HorizontalImageSizeHigh;
87 uint8_t HorizontalBorder;
88 uint8_t VerticalBorder;
89 uint8_t Flags;
90} RTEMS_PACKED EDID_detailed_timing_descriptor;
91
92EDID_INLINE_ROUTINE uint16_t DTD_horizontal_active (
93 EDID_detailed_timing_descriptor *dtd)
94{
95 return (dtd->HorizontalActiveLow |
96 (dtd->HorizontalBlanking_ActiveHigh & 0xF0) << 4);
97}
98
99EDID_INLINE_ROUTINE uint16_t DTD_horizontal_blanking (
100 EDID_detailed_timing_descriptor *dtd)
101{
102 return (dtd->HorizontalBlankingLow |
103 (dtd->HorizontalBlanking_ActiveHigh & 0xF) << 8);
104}
105
106EDID_INLINE_ROUTINE uint16_t DTD_vertical_active (
107 EDID_detailed_timing_descriptor *dtd)
108{
109 return (dtd->VerticalActiveLow |
110 (dtd->VerticalBlanking_ActiveHigh & 0xF0) << 4);
111}
112
113EDID_INLINE_ROUTINE uint16_t DTD_vertical_blanking (
114 EDID_detailed_timing_descriptor *dtd)
115{
116 return (dtd->VerticalBlankingLow |
117 (dtd->VerticalBlanking_ActiveHigh & 0xF) << 8);
118}
119
120EDID_INLINE_ROUTINE uint16_t DTD_vertical_sync_pulse_width (
121 EDID_detailed_timing_descriptor *dtd)
122{
123 return ((dtd->VerticalSyncPulseWidth_OffsetLow & 0xF) |
124 (dtd->Vert_Hor_SyncPulseWidth_Offset_High & 0x3) << 4);
125}
126
127EDID_INLINE_ROUTINE uint16_t DTD_vertical_sync_offset (
128 EDID_detailed_timing_descriptor *dtd)
129{
130 return ((dtd->VerticalSyncPulseWidth_OffsetLow >> 4) |
131 (dtd->Vert_Hor_SyncPulseWidth_Offset_High & 0xC) << 2);
132}
133
134EDID_INLINE_ROUTINE uint16_t DTD_horizontal_sync_pulse_width (
135 EDID_detailed_timing_descriptor *dtd)
136{
137 return (dtd->HorizontalSyncPulseWidthLow |
138 (dtd->Vert_Hor_SyncPulseWidth_Offset_High & 0x30) << 4);
139}
140
141EDID_INLINE_ROUTINE uint16_t DTD_horizontal_sync_offset (
142 EDID_detailed_timing_descriptor *dtd)
143{
144 return (dtd->HorizontalSyncOffsetLow |
145 (dtd->Vert_Hor_SyncPulseWidth_Offset_High & 0xC0) << 2);
146}
147
148EDID_INLINE_ROUTINE uint16_t DTD_vertical_image_size (
149 EDID_detailed_timing_descriptor *dtd)
150{
151 return (dtd->VerticalImageSizeLow |
152 (dtd->Vertical_HorizontalImageSizeHigh & 0xF) << 8);
153}
154
155EDID_INLINE_ROUTINE uint16_t DTD_horizontal_image_size (
156 EDID_detailed_timing_descriptor *dtd)
157{
158 return (dtd->HorizontalImageSizeLow |
159 (dtd->Vertical_HorizontalImageSizeHigh & 0xF0) << 4);
160}
161
162typedef struct {
163 uint8_t ColorPointWhitePointIndexNumber;
164 uint8_t ColorPointWhiteLowBits;
165 uint8_t ColorPointWhite_x;
166 uint8_t ColorPointWhite_y;
167 uint8_t ColorPointWhiteGamma;
168} RTEMS_PACKED EDID_color_point_data;
169
170/* Basic Display Parameters */
171/* Monitor Descriptor - Data Type Tag */
172#define EDID_DTT_MonitorSerialNumber 0xFF
173
174#define EDID_DTT_ASCIIString 0xFE
175
176#define EDID_DTT_MonitorRangeLimits 0xFD
177typedef struct {
178 uint8_t MinVerticalRateInHz;
179 uint8_t MaxVerticalRateInHz;
180 uint8_t MinHorizontalInKHz;
181 uint8_t MaxHorizontalInKHz;
182 uint8_t MaxSupportedPixelClockIn10MHz;
183/* see VESA, Generalized Timing Formula Standard - GTF
184 Version 1.0, December 18, 1996 */
185 uint8_t GTFStandard[8];
186} RTEMS_PACKED EDID_monitor_range_limits;
187
188#define EDID_DTT_MonitorName 0xFC
189
190#define EDID_DTT_AdditionalColorPointData 0xFB
191/* Standard Timing Identification */
192#define EDID_DTT_AdditionalSTI 0xFA
193
194#define EDID_DTT_DisplayColorManagement 0xF9
195
196#define EDID_DTT_CVT3ByteTimingCodes 0xF8
197
198#define EDID1_CVT_AspectRatioOff 2
199#define EDID1_CVT_AspectRatioMask 0x3
200#define EDID1_CVT_AddressableLinesHighOff 4
201#define EDID1_CVT_AddressableLinesHighMask 0xF
202 /* next 5 bits indicate supported vertical rates */
203#define EDID1_CVT_VerticalRate60HzRBOff 0
204#define EDID1_CVT_VerticalRate60HzRBMask 0x1
205#define EDID1_CVT_VerticalRate85HzOff 1
206#define EDID1_CVT_VerticalRate85HzMask 0x1
207#define EDID1_CVT_VerticalRate75HzOff 2
208#define EDID1_CVT_VerticalRate75HzMask 0x1
209#define EDID1_CVT_VerticalRate60HzOff 3
210#define EDID1_CVT_VerticalRate60HzMask 0x1
211#define EDID1_CVT_VerticalRate50HzOff 4
212#define EDID1_CVT_VerticalRate50HzMask 0x1
213#define EDID1_CVT_PreferredVerticalRateOff 5
214#define EDID1_CVT_PreferredVerticalRateMask 0x3
215
216#define EDID_CVT_AspectRatio_4_3 0
217#define EDID_CVT_AspectRatio_16_9 1
218#define EDID_CVT_AspectRatio_16_10 2
219#define EDID_CVT_AspectRatio_15_9 3
220#define EDID_CVT_PrefVertRate50Hz 0
221#define EDID_CVT_PrefVertRate60Hz 1
222#define EDID_CVT_PrefVertRate75Hz 2
223#define EDID_CVT_PrefVertRate85Hz 3
224typedef struct {
225 uint8_t AddressableLinesLow;
226 uint8_t AspectRatio_AddressableLinesHigh;
227 uint8_t VerticalRate_PreferredVerticalRate;
228} RTEMS_PACKED EDID_CVT_3_byte_code_descriptor;
229typedef struct {
230 uint8_t VersionNumber;
231 EDID_CVT_3_byte_code_descriptor cvt[4];
232} RTEMS_PACKED EDID_CVT_timing_codes_3B;
233
234EDID_INLINE_ROUTINE uint16_t edid1_CVT_addressable_lines_high (
235 EDID_CVT_3_byte_code_descriptor *cvt)
236{
237 return (cvt->AddressableLinesLow |
238 (cvt->VerticalRate_PreferredVerticalRate &
239 (EDID1_CVT_AddressableLinesHighMask<<EDID1_CVT_AddressableLinesHighOff)
240 ) << (8-EDID1_CVT_AddressableLinesHighOff) );
241}
242
243EDID_INLINE_ROUTINE uint8_t edid1_CVT_aspect_ratio (
244 EDID_CVT_3_byte_code_descriptor *cvt)
245{
246 return (cvt->AspectRatio_AddressableLinesHigh >> EDID1_CVT_AspectRatioOff) &
247 EDID1_CVT_AspectRatioMask;
248}
249
250#define EDID_DTT_EstablishedTimingsIII 0xF7
251typedef struct {
252 uint8_t RevisionNumber;
253 uint8_t EST_III[12];
254} RTEMS_PACKED EDID_established_timings_III;
255enum EST_III {
256 EST_1152x864_75Hz = 0,
257 EST_1024x768_85Hz = 1,
258 EST_800x600_85Hz = 2,
259 EST_848x480_60Hz = 3,
260 EST_640x480_85Hz = 4,
261 EST_720x400_85Hz = 5,
262 EST_640x400_85Hz = 6,
263 EST_640x350_85Hz = 7,
264
265 EST_1280x1024_85Hz = 8,
266 EST_1280x1024_60Hz = 9,
267 EST_1280x960_85Hz = 10,
268 EST_1280x960_60Hz = 11,
269 EST_1280x768_85Hz = 12,
270 EST_1280x768_75Hz = 13,
271 EST_1280x768_60Hz = 14,
272 EST_1280x768_60HzRB = 15,
273
274 EST_1400x1050_75Hz = 16,
275 EST_1400x1050_60Hz = 17,
276 EST_1400x1050_60HzRB= 18,
277 EST_1400x900_85Hz = 19,
278 EST_1400x900_75Hz = 20,
279 EST_1400x900_60Hz = 21,
280 EST_1400x900_60HzRB = 22,
281 EST_1360x768_60Hz = 23,
282
283 EST_1600x1200_70Hz = 24,
284 EST_1600x1200_65Hz = 25,
285 EST_1600x1200_60Hz = 26,
286 EST_1680x1050_85Hz = 27,
287 EST_1680x1050_75Hz = 28,
288 EST_1680x1050_60Hz = 29,
289 EST_1680x1050_60HzRB= 30,
290 EST_1400x1050_85Hz = 31,
291
292 EST_1920x1200_60Hz = 32,
293 EST_1920x1200_60HzRB= 33,
294 EST_1856x1392_75Hz = 34,
295 EST_1856x1392_60Hz = 35,
296 EST_1792x1344_75Hz = 36,
297 EST_1792x1344_60Hz = 37,
298 EST_1600x1200_85Hz = 38,
299 EST_1600x1200_75Hz = 39,
300
301 EST_1920x1440_75Hz = 44,
302 EST_1920x1440_60Hz = 45,
303 EST_1920x1200_85Hz = 46,
304 EST_1920x1200_75Hz = 47,
305};
306
307#define EDID_DTT_DescriptorSpaceUnused 0x10
308/* DTT 0x0 - 0xF are manufacturer specific */
309
310typedef struct {
311 uint8_t Flag0[2];
312 uint8_t Flag1;
313 uint8_t DataTypeTag;
314 uint8_t Flag2;
315 uint8_t DescriptorData[13];
316} RTEMS_PACKED EDID_monitor_descriptor;
317
319 EDID_detailed_timing_descriptor dtd;
320 EDID_monitor_descriptor md;
322
323#define EDID1_STI_ImageAspectRatioOff 0
324#define EDID1_STI_ImageAspectRatioMask 0x3
325#define EDID1_STI_RefreshRateOff 2
326#define EDID1_STI_RefreshRateMask 0x3F
327
328#define EDID_STI_DescriptorUnused 0x0101
329#define EDID_STI_AspectRatio_16_10 0
330#define EDID_STI_AspectRatio_4_3 1
331#define EDID_STI_AspectRatio_5_4 2
332#define EDID_STI_AspectRatio_16_9 3
333typedef struct {
334 uint8_t HorizontalActivePixels;
335 uint8_t ImageAspectRatio_RefreshRate;
336} RTEMS_PACKED EDID_standard_timing_identification;
337
338/* Video Input Definition */
339/* Analog = 0, Digital = 1 */
340#define EDID1_VID_DigitalSignalLevelOff 7
341#define EDID1_VID_DigitalSignalLevelMask 0x1
342/* for EDID1_VID_DigitalSignalLevelOff = 1 (Digital) */
343#define EDID1_VID_ColorBitDepthOff 4
344#define EDID1_VID_ColorBitDepthMask 0x7 /* see CBD */
345#define EDID1_VID_DigitalVideoStandardSuppOff 0
346#define EDID1_VID_DigitalVideoStandardSuppMask 0xF /* see DVS */
347/* for EDID1_VID_DigitalSignalLevelOff = 0 (Analog) */
348#define EDID1_VID_SignalLevelStandardOff 5
349#define EDID1_VID_SignalLevelStandardMask 0x3
350#define EDID1_VID_VideoSetupBlankOff 4
351#define EDID1_VID_VideoSetupBlankMask 0x1
352#define EDID1_VID_SeparateSyncHandVSignalsOff 3
353#define EDID1_VID_SeparateSyncHandVSignalsMask 0x1
354#define EDID1_VID_SyncSignalOnHorizontalOff 2
355#define EDID1_VID_SyncSignalOnHorizontalMask 0x1
356#define EDID1_VID_SyncSignalOnGreenOff 1
357#define EDID1_VID_SyncSignalOnGreenMask 0x1
358#define EDID1_VID_SerationOnVerticalSyncOff 0
359#define EDID1_VID_SerationOnVerticalSyncMask 0x1
360/* Analog Interface Data Format - Signal Level Standard */
361#define EDID_SLS_0700_0300_1000Vpp 0x0
362#define EDID_SLS_0714_0286_1000Vpp 0x1
363#define EDID_SLS_1000_0400_1400Vpp 0x2
364#define EDID_SLS_0700_0000_0700Vpp 0x3
365
366/* Color Bit Depths */
367#define CBD_undef 0x0
368#define CBD_6bPerPrimaryColor 0x1
369#define CBD_8bPerPrimaryColor 0x2
370#define CBD_10bPerPrimaryColor 0x3
371#define CBD_12bPerPrimaryColor 0x4
372#define CBD_14bPerPrimaryColor 0x5
373#define CBD_16bPerPrimaryColor 0x6
374#define CBD_reserved 0x7
375
376/* Digital Video Standard Supported */
377#define DVS_undef 0x0
378#define DVS_DVI 0x1
379#define DVS_HDMI_a 0x2
380#define DVS_HDMI_b 0x3
381#define DVS_MDDI 0x4
382#define DVS_DiplayPort 0x5
383
384/* Feature Support */
385#define EDID1_Feature_GTFSupported_mask 0x1
386#define EDID1_Feature_GTFSupported_off 0
387#define EDID1_Feature_PreferredTimingMode_mask 0x1
388#define EDID1_Feature_PreferredTimingMode_off 1
389#define EDID1_Feature_StandardDefaultColorSpace_mask 0x1
390#define EDID1_Feature_StandardDefaultColorSpace_off 2
391#define EDID1_Feature_DisplayType_mask 0x2
392#define EDID1_Feature_DisplayType_off 3
393 /* Refer to VESA DPMS Specification */
394#define EDID1_Feature_ActiveOff_mask 0x1
395#define EDID1_Feature_ActiveOff_off 5
396#define EDID1_Feature_Suspend_mask 0x1
397#define EDID1_Feature_Suspend_off 6
398#define EDID1_Feature_StandBy_mask 0x1
399#define EDID1_Feature_StandBy_off 7
400 /* analog - Display Color Type */
401#define EDID_DisplayType_Monochrome 0
402#define EDID_DisplayType_RGBcolor 1
403#define EDID_DisplayType_nonRGBcolor 2
404#define EDID_DisplayType_undef 3
405 /* digital - Supported Color Encoding Formats */
406#define EDID_DisplayType_RGB444 0
407#define EDID_DisplayType_RGB444YCrCb444 1
408#define EDID_DisplayType_RGB444YCrCb422 2
409#define EDID_DisplayType_RGB444YCrCb444YCrCb422 3
410
411typedef struct {
412 uint8_t Header[8];
413/* Vendor Product Identification */
414 uint8_t IDManufacturerName[2];
415 uint8_t IDProductCode[2];
416 uint8_t IDSerialNumber[4];
417 uint8_t WeekofManufacture;
418 uint8_t YearofManufacture;
419/* EDID Structure Version Revision Level */
420 uint8_t Version;
421 uint8_t Revision;
422/* Basic Display Parameters Features */
423 /* Video Input Definition */
424 uint8_t VideoInputDefinition;
425 uint8_t MaxHorizontalImageSize;
426 uint8_t MaxVerticalImageSize;
427 uint8_t DisplayTransferCharacteristic;
428 /* Feature Support */
429 uint8_t Features;
430/* Color Characteristics */
431 uint8_t GreenRedLow;
432 uint8_t WhiteBlueLow;
433 uint8_t RedXHigh;
434 uint8_t RedYHigh;
435 uint8_t GreenXHigh;
436 uint8_t GreenYHigh;
437 uint8_t BlueXHigh;
438 uint8_t BlueYHigh;
439 uint8_t WhiteXHigh;
440 uint8_t WhiteYHigh;
441/* Established Timings I, II, Manufacturer's */
442 uint8_t EST_I_II_Man[3];
443/* Standard Timing Identification */
444 EDID_standard_timing_identification STI[8];
445/* Detailed Timing Descriptions / Monitor Descriptions */
446 union EDID_DTD_MD dtd_md[4];
447 uint8_t ExtensionFlag;
448 uint8_t Checksum;
449} RTEMS_PACKED EDID_edid1;
450
451EDID_INLINE_ROUTINE uint16_t edid1_RedX (EDID_edid1 *edid) {
452 return (edid->RedXHigh<<2) | (edid->GreenRedLow>>6);
453}
454EDID_INLINE_ROUTINE uint16_t edid1_RedY (EDID_edid1 *edid) {
455 return (edid->RedYHigh<<2) | (edid->GreenRedLow>>4)&&0x3;
456}
457EDID_INLINE_ROUTINE uint16_t edid1_GreenX (EDID_edid1 *edid) {
458 return (edid->GreenXHigh<<2) | (edid->GreenRedLow>>2)&&0x3;
459}
460EDID_INLINE_ROUTINE uint16_t edid1_GreenY (EDID_edid1 *edid) {
461 return (edid->GreenYHigh<<2) | (edid->GreenRedLow&0x3);
462}
463EDID_INLINE_ROUTINE uint16_t edid1_BlueX (EDID_edid1 *edid) {
464 return (edid->BlueXHigh<<2) | (edid->WhiteBlueLow>>6);
465}
466EDID_INLINE_ROUTINE uint16_t edid1_BlueY (EDID_edid1 *edid) {
467 return (edid->BlueYHigh<<2) | (edid->WhiteBlueLow>>4)&&0x3;
468}
469EDID_INLINE_ROUTINE uint16_t edid1_WhiteX (EDID_edid1 *edid) {
470 return (edid->WhiteXHigh<<2) | (edid->WhiteBlueLow>>2)&&0x3;
471}
472EDID_INLINE_ROUTINE uint16_t edid1_WhiteY (EDID_edid1 *edid) {
473 return (edid->WhiteYHigh<<2) | (edid->WhiteBlueLow&0x3);
474}
475
476EDID_INLINE_ROUTINE int edid1_STI_is_unused (
477 const EDID_standard_timing_identification *edid_sti) {
478 return (edid_sti->HorizontalActivePixels ==
479 (uint8_t)EDID_STI_DescriptorUnused) &&
480 (edid_sti->ImageAspectRatio_RefreshRate ==
481 (uint8_t)(EDID_STI_DescriptorUnused >> 8));
482}
483
484enum edid1_established_timings {
485/* Established Timings I */
486 EST_800x600_60Hz = 0,
487 EST_800x600_56Hz = 1,
488 EST_640x480_75Hz = 2,
489 EST_640x480_72Hz = 3,
490 EST_640x480_67Hz = 4,
491 EST_640x480_60Hz = 5,
492 EST_720x400_88Hz = 6,
493 EST_720x400_70Hz = 7,
494/* Established Timings II */
495 EST_1280x1024_75Hz = 8,
496 EST_1024x768_75Hz = 9,
497 EST_1024x768_70Hz = 10,
498 EST_1024x768_60Hz = 11,
499 EST_1024x768_87Hz = 12,
500 EST_832x624_75Hz = 13,
501 EST_800x600_75Hz = 14,
502 EST_800x600_72Hz = 15,
503/* Manufacturer's Timings */
504 EST_1152x870_75Hz = 23,
505};
506
507EDID_INLINE_ROUTINE uint8_t edid1_established_tim (
508 EDID_edid1 *edid,
509 enum edid1_established_timings est)
510{
511 return (uint8_t)(edid->EST_I_II_Man[est/8] & (est%8));
512}
513
514#ifdef __cplusplus
515}
516#endif /* __cplusplus */
517
518#endif /* ASM */
519
520#endif /* _VBE_H */
This header file provides basic definitions used by the API and the implementation.
Used for passing and retrieving registers content to/from real mode interrupt call.
Definition: realmode_int.h:43
Definition: edid.h:318