// SPDX-License-Identifier: MIT /* * Copyright 2020 Cisco Systems, Inc. and/or its affiliates. All rights reserved. * * Author: Hans Verkuil */ #include "edid-decode.h" void edid_state::parse_digital_interface(const unsigned char *x) { data_block = "Digital Interface"; printf(" %s:\n", data_block.c_str()); printf(" Supported Digital Interface: "); unsigned short v = x[2]; switch (v) { case 0x00: printf("Analog Video Input\n"); if (!memchk(x + 2, 12)) fail("Bytes 0x02-0x0d should be 0.\n"); return; case 0x01: printf("DVI\n"); break; case 0x02: printf("DVI Single Link\n"); break; case 0x03: printf("DVI Dual Link - High Resolution\n"); break; case 0x04: printf("DVI Dual Link - High Color\n"); break; case 0x05: printf("DVI - Consumer Electronics\n"); break; case 0x06: printf("Plug & Display\n"); break; case 0x07: printf("DFP\n"); break; case 0x08: printf("Open LDI - Single Link\n"); break; case 0x09: printf("Open LDI - Dual Link\n"); break; case 0x0a: printf("Open LDI - Consumer Electronics\n"); break; default: printf("Unknown (0x%02x)\n", v); fail("Unknown Digital Interface 0x%02x.\n", v); break; } switch ((x[3]) >> 6) { case 0x00: if (!memchk(x + 3, 4)) fail("Bytes 0x03-0x06 should be 0.\n"); break; case 0x01: printf(" Version: %u.%u\n Release: %u.%u\n", x[3] & 0x3f, x[4], x[5], x[6]); if (x[4] > 99) fail("Version number > 99.\n"); if (x[6] > 99) fail("Release number > 99.\n"); break; case 0x02: if (x[3] & 0x3f) fail("Bits 5-0 of byte 0x03 should be 0.\n"); if (x[5] || x[6]) fail("Bytes 0x05-0x06 should be 0.\n"); printf(" Letter Designation: %c\n", x[4]); break; case 0x03: if (x[3] & 0x3f) fail("Bits 5-0 of byte 0x03 should be 0.\n"); printf(" Date Code: Year %u Week %u Day %u\n", 1990 + x[4], x[5], x[6]); if (!x[5] || x[5] > 12) fail("Bad month number.\n"); if (!x[6] || x[6] > 31) fail("Bad day number.\n"); break; } v = x[7]; printf(" Data Enable Signal Usage %sAvailable\n", (v & 0x80) ? "" : "Not "); if (v & 0x80) printf(" Data Enable Signal %s\n", (v & 0x40) ? "High" : "Low"); else if (v & 0x40) fail("Bit 6 of byte 0x07 should be 0.\n"); printf(" Edge of Shift Clock: "); switch ((v >> 4) & 0x03) { case 0: printf("Not specified\n"); break; case 1: printf("Use rising edge of shift clock\n"); break; case 2: printf("Use falling edge of shift clock\n"); break; case 3: printf("Use both edges of shift clock\n"); break; } printf(" HDCP is %ssupported\n", (v & 0x08) ? "" : "not "); printf(" Digital Receivers %ssupport Double Clocking of Input Data\n", (v & 0x04) ? "" : "do not "); printf(" Packetized Digital Video is %ssupported\n", (v & 0x02) ? "" : "not "); if (v & 0x01) fail("Bit 0 of byte 0x07 should be 0.\n"); v = x[8]; printf(" Data Formats: "); switch (v) { case 0x15: printf("8-Bit Over 8-Bit RGB\n"); break; case 0x19: printf("12-Bit Over 12-Bit RGB\n"); break; case 0x24: printf("24-Bit MSB-Aligned RGB (Single Link)\n"); break; case 0x48: printf("48-Bit MSB-Aligned RGB (Dual Link - High Resolution)\n"); break; case 0x49: printf("48-Bit MSB-Aligned RGB (Dual Link - High Color)\n"); break; default: printf("Unknown (0x%02x)\n", v); fail("Unknown Data Format 0x%02x.\n", v); break; } if (x[2] == 0x03 && v != 0x48) fail("Data Format should be 0x48, not 0x%02x.\n", v); if (x[2] == 0x04 && v != 0x49) fail("Data Format should be 0x49, not 0x%02x.\n", v); v = x[9]; if (v) { printf(" Minimum Pixel Clock Frequency Per Link: %u MHz\n", v); if (v == 0xff) fail("Invalid Min-PCF 0x%02x.\n", v); } v = x[10] | (x[11] << 8); if (v) { printf(" Maximum Pixel Clock Frequency Per Link: %u MHz\n", v); if (v == 0xffff) fail("Invalid Max-PCF 0x%04x.\n", v); } v = x[12] | (x[13] << 8); if (v == 0xffff) printf(" Crossover Frequency: None - Single Link\n"); else if (v) printf(" Crossover Frequency: %u MHz\n", v); } void edid_state::parse_display_device(const unsigned char *x) { data_block = "Display Device"; printf(" %s:\n", data_block.c_str()); printf(" Sub-Pixel Layout: "); unsigned char v = x[0x0e]; switch (v) { case 0x00: printf("Not defined\n"); break; case 0x01: printf("RGB\n"); break; case 0x02: printf("BGR\n"); break; case 0x03: printf("Quad Pixel - G at bottom left & top right\n"); break; case 0x04: printf("Quad Pixel - G at bottom right & top left\n"); break; default: printf("Unknown (0x%02x)\n", v); fail("Unknown Sub-Pixel Layout 0x%02x.\n", v); break; } printf(" Sub-Pixel Configuration: "); v = x[0x0f]; switch (v) { case 0x00: printf("Not defined\n"); break; case 0x01: printf("Delta (Tri-ad)\n"); break; case 0x02: printf("Stripe\n"); break; case 0x03: printf("Stripe Offset\n"); break; case 0x04: printf("Quad Pixel\n"); break; default: printf("Unknown (0x%02x)\n", v); fail("Unknown Sub-Pixel Configuration 0x%02x.\n", v); break; } printf(" Sub-Pixel Shape: "); v = x[0x10]; switch (v) { case 0x00: printf("Not defined\n"); break; case 0x01: printf("Round\n"); break; case 0x02: printf("Square\n"); break; case 0x03: printf("Rectangular\n"); break; case 0x04: printf("Oval\n"); break; case 0x05: printf("Elliptical\n"); break; default: printf("Unknown (0x%02x)\n", v); fail("Unknown Sub-Pixel Shape 0x%02x.\n", v); break; } if (x[0x11]) printf(" Horizontal Dot/Pixel Pitch: %.2f mm\n", x[0x11] / 100.0); if (x[0x12]) printf(" Vertical Dot/Pixel Pitch: %.2f mm\n", x[0x12] / 100.0); v = x[0x13]; printf(" Display Device %s a Fixed Pixel Format\n", (v & 0x80) ? "has" : "does not have"); printf(" View Direction: "); switch ((v & 0x60) >> 5) { case 0x00: printf("Not specified\n"); break; case 0x01: printf("Direct\n"); break; case 0x02: printf("Reflected\n"); break; case 0x03: printf("Direct & Reflected\n"); break; } printf(" Display Device uses %stransparent background\n", (v & 0x10) ? "" : "non-"); printf(" Physical Implementation: "); switch ((v & 0x0c) >> 2) { case 0x00: printf("Not specified\n"); break; case 0x01: printf("Large Image device for group viewing\n"); break; case 0x02: printf("Desktop or personal display\n"); break; case 0x03: printf("Eyepiece type personal display\n"); break; } printf(" Monitor/display does %ssupport DDC/CI\n", (v & 0x02) ? "" : "not "); if (v & 0x01) fail("Bit 0 of byte 0x13 should be 0.\n"); } void edid_state::parse_display_caps(const unsigned char *x) { data_block = "Display Capabities & Feature Support Set"; printf(" %s:\n", data_block.c_str()); unsigned short v = x[0x14]; printf(" Legacy Modes: %s VGA/DOS Legacy Timing Modes are supported\n", (v & 0x80) ? "All" : "Not all"); printf(" Stereo Video: "); switch ((v & 0x70) >> 4) { case 0x00: printf("No direct stereo\n"); break; case 0x01: printf("Field seq. stereo via stereo sync signal\n"); break; case 0x02: printf("auto-stereoscopic, column interleave\n"); break; case 0x03: printf("auto-stereoscopic, line interleave\n"); break; default: printf("Unknown (0x%02x)\n", (v & 0x70) >> 4); fail("Unknown Stereo Video 0x%02x.\n", (v & 0x70) >> 4); break; } printf(" Scaler On Board: %s\n", (v & 0x08) ? "Yes" : "No"); printf(" Image Centering: %s\n", (v & 0x04) ? "Yes" : "No"); printf(" Conditional Update: %s\n", (v & 0x02) ? "Yes" : "No"); printf(" Interlaced Video: %s\n", (v & 0x01) ? "Yes" : "No"); v = x[0x15]; printf(" Frame Lock: %s\n", (v & 0x80) ? "Yes" : "No"); printf(" Frame Rate Conversion: "); switch ((v & 0x60) >> 5) { case 0x00: printf("Not supported\n"); break; case 0x01: printf("Vertical is converted to a single frequency\n"); break; case 0x02: printf("Horizontal is convertred to a single frequency\n"); break; case 0x03: printf("Both Vertical & Horizontal are converted to single frequencies\n"); break; } if (v & 0x1f) fail("Bits 4-0 of byte 0x15 should be 0.\n"); v = x[0x16] | (x[0x17] << 8); printf(" Vertical Frequency: "); if (!v) { printf("Not available\n"); } else if (v == 0xffff) { printf("Reserved\n"); fail("Vertical Frequency uses 0xffff (reserved value).\n"); } else { printf("%.2f kHz\n", v / 100.0); } v = x[0x18] | (x[0x19] << 8); printf(" Horizontal Frequency: "); if (!v) { printf("Not available\n"); } else if (v == 0xffff) { printf("Reserved\n"); fail("Horizontal Frequency uses 0xffff (reserved value).\n"); } else { printf("%.2f kHz\n", v / 100.0); } v = x[0x1a]; printf(" Display/Scan Orientation Definition Type: "); switch ((v & 0xc0) >> 6) { case 0x00: printf("Not defined\n"); break; case 0x01: printf("Fixed Orientation\n"); break; case 0x02: printf("Pivots: Default Orientation\n"); break; case 0x03: printf("Pivots: Current Orientation (requires multiple EDID Extension Tables)\n"); break; } printf(" Screen Orientation: %s\n", (v & 0x20) ? "Portrait" : "Landscape"); printf(" Zero Pixel Location: "); switch ((v & 0x18) >> 3) { case 0x00: printf("Upper Left\n"); break; case 0x01: printf("Upper Right\n"); break; case 0x02: printf("Lower Left\n"); break; case 0x03: printf("Lower Right\n"); break; } printf(" Scan Direction: "); switch ((v & 0x06) >> 1) { case 0x00: printf("Not defined\n"); break; case 0x01: printf("Fast Scan is on the Major (Long) Axis and Slow Scan is on the Minor Axis\n"); break; case 0x02: printf("Fast Scan is on the Minor (Short) Axis and Slow Scan is on the Major Axis\n"); break; case 0x03: printf("Reserved\n"); fail("Scan Direction used the reserved value 0x03.\n"); break; } printf(" Standalone Projector: %s\n", (v & 0x01) ? "Yes" : "No"); v = x[0x1b]; printf(" Default Color/Luminance Decoding: "); switch (v) { case 0x00: printf("Not defined\n"); break; case 0x01: printf("BGR\n"); break; case 0x02: printf("Y/C (S-Video) NTSC\n"); break; case 0x03: printf("Y/C (S-Video) PAL\n"); break; case 0x04: printf("Y/C (S-Video) SECAM\n"); break; case 0x05: printf("YCrCb 4:4:4 per SMPTE 293M & 294M\n"); break; case 0x06: printf("YCrCb 4:2:2 per SMPTE 293M & 294M\n"); break; case 0x07: printf("YCrCb 4:2:0 per SMPTE 293M & 294M\n"); break; case 0x08: printf("YCrCb per SMPTE 260M (Legacy HDTV)\n"); break; case 0x09: printf("YPbPr per SMPTE 240M (Legacy HDTV)\n"); break; case 0x0a: printf("YCrCb per SMPTE 274M (Modern HDTV)\n"); break; case 0x0b: printf("YPbPr per SMPTE 274M (Modern HDTV)\n"); break; case 0x0c: printf("Y B-Y R-Y BetaCam (Sony)\n"); break; case 0x0d: printf("Y B-Y R-Y M-2 (Matsushita)\n"); break; case 0x0e: printf("Monochrome\n"); break; default: printf("Unknown (0x%02x)\n", v); fail("Unknown Default Color/Luminance Decoding 0x%02x.\n", v); break; } v = x[0x1c]; printf(" Preferred Color/Luminance Decoder: "); switch (v) { case 0x00: printf("Uses Default Decoding\n"); break; case 0x01: printf("BGR\n"); break; case 0x02: printf("Y/C (S-Video)\n"); break; case 0x03: printf("Yxx (SMPTE 2xxM)\n"); break; case 0x04: printf("Monochrome\n"); break; default: printf("Unknown (0x%02x)\n", v); fail("Unknown Preferred Color/Luminance Decoding 0x%02x.\n", v); break; } v = x[0x1d]; if (v && (x[0x1e] & 0xfc)) { printf(" Color/Luminance Decoding Capabilities:\n"); printf(" BGR: %s\n", (v & 0x80) ? "Yes" : "No"); printf(" Y/C (S-Video) NTSC: %s\n", (v & 0x40) ? "Yes" : "No"); printf(" Y/C (S-Video) PAL: %s\n", (v & 0x20) ? "Yes" : "No"); printf(" Y/C (S-Video) SECAM: %s\n", (v & 0x10) ? "Yes" : "No"); printf(" YCrCb 4:4:4 per SMPTE 293M & 294M: %s\n", (v & 0x08) ? "Yes" : "No"); printf(" YCrCb 4:2:2 per SMPTE 293M & 294M: %s\n", (v & 0x04) ? "Yes" : "No"); printf(" YCrCb 4:2:0 per SMPTE 293M & 294M: %s\n", (v & 0x02) ? "Yes" : "No"); printf(" YCrCb per SMPTE 260M (Legacy HDTV): %s\n", (v & 0x01) ? "Yes" : "No"); v = x[0x1e]; printf(" YPbPr per SMPTE 240M (Legacy HDTV): %s\n", (v & 0x80) ? "Yes" : "No"); printf(" YCrCb per SMPTE 274M (Modern HDTV): %s\n", (v & 0x40) ? "Yes" : "No"); printf(" YPbPr per SMPTE 274M (Modern HDTV): %s\n", (v & 0x20) ? "Yes" : "No"); printf(" Y B-Y R-Y BetaCam (Sony): %s\n", (v & 0x10) ? "Yes" : "No"); printf(" Y B-Y R-Y M-2 (Matsushita): %s\n", (v & 0x08) ? "Yes" : "No"); printf(" Monochrome: %s\n", (v & 0x04) ? "Yes" : "No"); } else { printf(" Color/Luminance Decoding Capabilities: None\n"); } if (v & 0x03) fail("Bits 1-0 of byte 0x1e should be 0.\n"); v = x[0x1f]; printf(" Dithering: %s\n", (v & 0x80) ? "Yes" : "No"); if (v & 0x7f) fail("Bits 6-0 of byte 0x1f should be 0.\n"); v = x[0x20]; printf(" Supported Color Bit-Depth of Sub-Channel 0 (Blue): "); if (!v) { printf("No Information\n"); } else if (v <= 16) { printf("%u\n", v); } else { printf("Reserved (0x%02x)\n", v); fail("Supported Color Bit-Depth of Sub-Channel Blue value is 0x%02x.\n", v); } v = x[0x21]; printf(" Supported Color Bit-Depth of Sub-Channel 1 (Green): "); if (!v) { printf("No Information\n"); } else if (v <= 16) { printf("%u\n", v); } else { printf("Reserved (0x%02x)\n", v); fail("Supported Color Bit-Depth of Sub-Channel Green value is 0x%02x.\n", v); } v = x[0x22]; printf(" Supported Color Bit-Depth of Sub-Channel 2 (Red): "); if (!v) { printf("No Information\n"); } else if (v <= 16) { printf("%u\n", v); } else { printf("Reserved (0x%02x)\n", v); fail("Supported Color Bit-Depth of Sub-Channel Red value is 0x%02x.\n", v); } v = x[0x23]; printf(" Supported Color Bit-Depth of Sub-Channel 0 (Cb/Pb): "); if (!v) { printf("No Information\n"); } else if (v <= 16) { printf("%u\n", v); } else { printf("Reserved (0x%02x)\n", v); fail("Supported Color Bit-Depth of Sub-Channel Cb/Pb value is 0x%02x.\n", v); } v = x[0x24]; printf(" Supported Color Bit-Depth of Sub-Channel 1 (Y): "); if (!v) { printf("No Information\n"); } else if (v <= 16) { printf("%u\n", v); } else { printf("Reserved (0x%02x)\n", v); fail("Supported Color Bit-Depth of Sub-Channel Y value is 0x%02x.\n", v); } v = x[0x25]; printf(" Supported Color Bit-Depth of Sub-Channel 2 (Cr/Pr): "); if (!v) { printf("No Information\n"); } else if (v <= 16) { printf("%u\n", v); } else { printf("Reserved (0x%02x)\n", v); fail("Supported Color Bit-Depth of Sub-Channel Cr/Pr value is 0x%02x.\n", v); } v = x[0x26]; printf(" Aspect Ratio Conversion Modes:"); if (!v) { printf(" None\n"); } else { printf("\n"); printf(" Full Mode: %s\n", (v & 0x80) ? "Yes" : "No"); printf(" Zoom Mode: %s\n", (v & 0x40) ? "Yes" : "No"); printf(" Squeeze (Side Bars/Letterbox) Mode: %s\n", (v & 0x20) ? "Yes" : "No"); printf(" Variable (Expand/Shrink) Mode: %s\n", (v & 0x10) ? "Yes" : "No"); } if (v & 0x0f) fail("Bits 3-0 of byte 0x26 should be 0.\n"); } void edid_state::parse_display_xfer(const unsigned char *x) { data_block = "Display Transfer Characteristics - Gamma"; printf(" %s:\n", data_block.c_str()); unsigned char v = x[0x51]; unsigned num_entries = v & 0x3f; switch ((v & 0xc0) >> 6) { case 0x00: printf(" No Display Transfer Characteristics\n"); if (!memchk(x + 0x51, 46)) fail("Bytes 0x51-0x7e should be 0.\n"); return; case 0x03: fail("Bits 7-6 of byte 0x51 cannot be 0x03.\n"); return; default: break; } if (((v & 0xc0) >> 6) == 0x01) { if (!num_entries || num_entries > 45) fail("White Curve with %u entries.\n", num_entries); if (num_entries > 45) num_entries = 45; if (!memchk(x + 0x52 + num_entries, 45 - num_entries)) fail("Bytes 0x%02x-0x7e should be 0.\n", 0x52 + num_entries); printf(" White Curve (%u entries):\n", num_entries); hex_block(" ", x + 0x52, num_entries, false, 15); } else { if (!num_entries || num_entries > 15) fail("Sub-Channel Curve with %u entries.\n", num_entries); if (num_entries > 15) num_entries = 15; printf(" Sub-Channel 0 (Blue) Curve with %u entries:\n", num_entries); hex_block(" ", x + 0x52, num_entries, false); if (!memchk(x + 0x52 + num_entries, 15 - num_entries)) fail("Bytes 0x%02x-0x7e should be 0.\n", 0x52 + num_entries); printf(" Sub-Channel 1 (Green) Curve with %u entries:\n", num_entries); hex_block(" ", x + 0x52 + 15, num_entries, false); if (!memchk(x + 0x52 + 15 + num_entries, 15 - num_entries)) fail("Bytes 0x%02x-0x7e should be 0.\n", 0x52 + 15 + num_entries); printf(" Sub-Channel 2 (Red) Curve with %u entries:\n", num_entries); hex_block(" ", x + 0x52 + 30, num_entries, false); if (!memchk(x + 0x52 + 30 + num_entries, 15 - num_entries)) fail("Bytes 0x%02x-0x7e should be 0.\n", 0x52 + 30 + num_entries); } } void edid_state::parse_di_ext_block(const unsigned char *x) { printf(" Version: %u\n", x[1]); if (!x[1]) fail("Invalid version 0.\n"); parse_digital_interface(x); parse_display_device(x); parse_display_caps(x); if (!memchk(x + 0x27, 16)) fail("Bytes 0x27-0x36 should be 0.\n"); if (!memchk(x + 0x37, 17)) fail("Bytes 0x37-0x47 should be 0.\n"); if (!memchk(x + 0x48, 9)) fail("Bytes 0x48-0x50 should be 0.\n"); parse_display_xfer(x); }