/* * QEMU EDID generator. * * This work is licensed under the terms of the GNU GPL, version 2 or later. * See the COPYING file in the top-level directory. */ #include "qemu/osdep.h" #include "qemu-common.h" #include "qemu/bswap.h" #include "hw/display/edid.h" static const struct edid_mode { uint32_t xres; uint32_t yres; uint32_t byte; uint32_t xtra3; uint32_t bit; uint32_t dta; } modes[] = { /* dea/dta extension timings (all @ 50 Hz) */ { .xres = 5120, .yres = 2160, .dta = 125 }, { .xres = 4096, .yres = 2160, .dta = 101 }, { .xres = 3840, .yres = 2160, .dta = 96 }, { .xres = 2560, .yres = 1080, .dta = 89 }, { .xres = 2048, .yres = 1152 }, { .xres = 1920, .yres = 1080, .dta = 31 }, /* additional standard timings 3 (all @ 60Hz) */ { .xres = 1920, .yres = 1440, .xtra3 = 11, .bit = 5 }, { .xres = 1920, .yres = 1200, .xtra3 = 10, .bit = 0 }, { .xres = 1856, .yres = 1392, .xtra3 = 10, .bit = 3 }, { .xres = 1792, .yres = 1344, .xtra3 = 10, .bit = 5 }, { .xres = 1600, .yres = 1200, .xtra3 = 9, .bit = 2 }, { .xres = 1680, .yres = 1050, .xtra3 = 9, .bit = 5 }, { .xres = 1440, .yres = 1050, .xtra3 = 8, .bit = 1 }, { .xres = 1440, .yres = 900, .xtra3 = 8, .bit = 5 }, { .xres = 1360, .yres = 768, .xtra3 = 8, .bit = 7 }, { .xres = 1280, .yres = 1024, .xtra3 = 7, .bit = 1 }, { .xres = 1280, .yres = 960, .xtra3 = 7, .bit = 3 }, { .xres = 1280, .yres = 768, .xtra3 = 7, .bit = 6 }, /* established timings (all @ 60Hz) */ { .xres = 1024, .yres = 768, .byte = 36, .bit = 3 }, { .xres = 800, .yres = 600, .byte = 35, .bit = 0 }, { .xres = 640, .yres = 480, .byte = 35, .bit = 5 }, }; static void edid_ext_dta(uint8_t *dta) { dta[0] = 0x02; dta[1] = 0x03; dta[2] = 0x05; dta[3] = 0x00; /* video data block */ dta[4] = 0x40; } static void edid_ext_dta_mode(uint8_t *dta, uint8_t nr) { dta[dta[2]] = nr; dta[2]++; dta[4]++; } static int edid_std_mode(uint8_t *mode, uint32_t xres, uint32_t yres) { uint32_t aspect; if (xres == 0 || yres == 0) { mode[0] = 0x01; mode[1] = 0x01; return 0; } else if (xres * 10 == yres * 16) { aspect = 0; } else if (xres * 3 == yres * 4) { aspect = 1; } else if (xres * 4 == yres * 5) { aspect = 2; } else if (xres * 9 == yres * 16) { aspect = 3; } else { return -1; } if ((xres / 8) - 31 > 255) { return -1; } mode[0] = (xres / 8) - 31; mode[1] = ((aspect << 6) | (60 - 60)); return 0; } static void edid_fill_modes(uint8_t *edid, uint8_t *xtra3, uint8_t *dta, uint32_t maxx, uint32_t maxy) { const struct edid_mode *mode; int std = 38; int rc, i; for (i = 0; i < ARRAY_SIZE(modes); i++) { mode = modes + i; if ((maxx && mode->xres > maxx) || (maxy && mode->yres > maxy)) { continue; } if (mode->byte) { edid[mode->byte] |= (1 << mode->bit); } else if (mode->xtra3 && xtra3) { xtra3[mode->xtra3] |= (1 << mode->bit); } else if (std < 54) { rc = edid_std_mode(edid + std, mode->xres, mode->yres); if (rc == 0) { std += 2; } } if (dta && mode->dta) { edid_ext_dta_mode(dta, mode->dta); } } while (std < 54) { edid_std_mode(edid + std, 0, 0); std += 2; } } static void edid_checksum(uint8_t *edid) { uint32_t sum = 0; int i; for (i = 0; i < 127; i++) { sum += edid[i]; } sum &= 0xff; if (sum) { edid[127] = 0x100 - sum; } } static void edid_desc_type(uint8_t *desc, uint8_t type) { desc[0] = 0; desc[1] = 0; desc[2] = 0; desc[3] = type; desc[4] = 0; } static void edid_desc_text(uint8_t *desc, uint8_t type, const char *text) { size_t len; edid_desc_type(desc, type); memset(desc + 5, ' ', 13); len = strlen(text); if (len > 12) { len = 12; } strncpy((char *)(desc + 5), text, len); desc[5 + len] = '\n'; } static void edid_desc_ranges(uint8_t *desc) { edid_desc_type(desc, 0xfd); /* vertical (50 -> 125 Hz) */ desc[5] = 50; desc[6] = 125; /* horizontal (30 -> 160 kHz) */ desc[7] = 30; desc[8] = 160; /* max dot clock (1200 MHz) */ desc[9] = 1200 / 10; /* no extended timing information */ desc[10] = 0x01; /* padding */ desc[11] = '\n'; memset(desc + 12, ' ', 6); } /* additional standard timings 3 */ static void edid_desc_xtra3_std(uint8_t *desc) { edid_desc_type(desc, 0xf7); desc[5] = 10; } static void edid_desc_dummy(uint8_t *desc) { edid_desc_type(desc, 0x10); } static void edid_desc_timing(uint8_t *desc, uint32_t xres, uint32_t yres, uint32_t dpi) { /* physical display size */ uint32_t xmm = xres * dpi / 254; uint32_t ymm = yres * dpi / 254; /* pull some realistic looking timings out of thin air */ uint32_t xfront = xres * 25 / 100; uint32_t xsync = xres * 3 / 100; uint32_t xblank = xres * 35 / 100; uint32_t yfront = yres * 5 / 1000; uint32_t ysync = yres * 5 / 1000; uint32_t yblank = yres * 35 / 1000; uint32_t clock = 75 * (xres + xblank) * (yres + yblank); *(uint32_t *)(desc) = cpu_to_le32(clock / 10000); desc[2] = xres & 0xff; desc[3] = xblank & 0xff; desc[4] = (((xres & 0xf00) >> 4) | ((xblank & 0xf00) >> 8)); desc[5] = yres & 0xff; desc[6] = yblank & 0xff; desc[7] = (((yres & 0xf00) >> 4) | ((yblank & 0xf00) >> 8)); desc[8] = xfront & 0xff; desc[9] = xsync & 0xff; desc[10] = (((yfront & 0x00f) << 4) | ((ysync & 0x00f) << 0)); desc[11] = (((xfront & 0x300) >> 2) | ((xsync & 0x300) >> 4) | ((yfront & 0x030) >> 2) | ((ysync & 0x030) >> 4)); desc[12] = xmm & 0xff; desc[13] = ymm & 0xff; desc[14] = (((xmm & 0xf00) >> 4) | ((ymm & 0xf00) >> 8)); desc[17] = 0x18; } static uint32_t edid_to_10bit(float value) { return (uint32_t)(value * 1024 + 0.5); } static void edid_colorspace(uint8_t *edid, float rx, float ry, float gx, float gy, float bx, float by, float wx, float wy) { uint32_t red_x = edid_to_10bit(rx); uint32_t red_y = edid_to_10bit(ry); uint32_t green_x = edid_to_10bit(gx); uint32_t green_y = edid_to_10bit(gy); uint32_t blue_x = edid_to_10bit(bx); uint32_t blue_y = edid_to_10bit(by); uint32_t white_x = edid_to_10bit(wx); uint32_t white_y = edid_to_10bit(wy); edid[25] = (((red_x & 0x03) << 6) | ((red_y & 0x03) << 4) | ((green_x & 0x03) << 2) | ((green_y & 0x03) << 0)); edid[26] = (((blue_x & 0x03) << 6) | ((blue_y & 0x03) << 4) | ((white_x & 0x03) << 2) | ((white_y & 0x03) << 0)); edid[27] = red_x >> 2; edid[28] = red_y >> 2; edid[29] = green_x >> 2; edid[30] = green_y >> 2; edid[31] = blue_x >> 2; edid[32] = blue_y >> 2; edid[33] = white_x >> 2; edid[34] = white_y >> 2; } void qemu_edid_generate(uint8_t *edid, size_t size, qemu_edid_info *info) { uint32_t desc = 54; uint8_t *xtra3 = NULL; uint8_t *dta = NULL; /* =============== set defaults =============== */ if (!info->vendor || strlen(info->vendor) != 3) { info->vendor = "RHT"; } if (!info->name) { info->name = "QEMU Monitor"; } if (!info->dpi) { info->dpi = 100; } if (!info->prefx) { info->prefx = 1024; } if (!info->prefy) { info->prefy = 768; } /* =============== extensions =============== */ if (size >= 256) { dta = edid + 128; edid[126]++; edid_ext_dta(dta); } /* =============== header information =============== */ /* fixed */ edid[0] = 0x00; edid[1] = 0xff; edid[2] = 0xff; edid[3] = 0xff; edid[4] = 0xff; edid[5] = 0xff; edid[6] = 0xff; edid[7] = 0x00; /* manufacturer id, product code, serial number */ uint16_t vendor_id = ((((info->vendor[0] - '@') & 0x1f) << 10) | (((info->vendor[1] - '@') & 0x1f) << 5) | (((info->vendor[2] - '@') & 0x1f) << 0)); uint16_t model_nr = 0x1234; uint32_t serial_nr = info->serial ? atoi(info->serial) : 0; *(uint16_t *)(edid + 8) = cpu_to_be16(vendor_id); *(uint16_t *)(edid + 10) = cpu_to_le16(model_nr); *(uint32_t *)(edid + 12) = cpu_to_le32(serial_nr); /* manufacture week and year */ edid[16] = 42; edid[17] = 2014 - 1990; /* edid version */ edid[18] = 1; edid[19] = 4; /* =============== basic display parameters =============== */ /* video input: digital, 8bpc, displayport */ edid[20] = 0xa5; /* screen size: undefined */ edid[21] = info->prefx * info->dpi / 2540; edid[22] = info->prefy * info->dpi / 2540; /* display gamma: 2.2 */ edid[23] = 220 - 100; /* supported features bitmap: std sRGB, preferred timing */ edid[24] = 0x06; /* =============== chromaticity coordinates =============== */ /* standard sRGB colorspace */ edid_colorspace(edid, 0.6400, 0.3300, /* red */ 0.3000, 0.6000, /* green */ 0.1500, 0.0600, /* blue */ 0.3127, 0.3290); /* white point */ /* =============== established timing bitmap =============== */ /* =============== standard timing information =============== */ /* both filled by edid_fill_modes() */ /* =============== descriptor blocks =============== */ edid_desc_timing(edid + desc, info->prefx, info->prefy, info->dpi); desc += 18; edid_desc_ranges(edid + desc); desc += 18; if (info->name) { edid_desc_text(edid + desc, 0xfc, info->name); desc += 18; } if (info->serial) { edid_desc_text(edid + desc, 0xff, info->serial); desc += 18; } if (desc < 126) { xtra3 = edid + desc; edid_desc_xtra3_std(xtra3); desc += 18; } while (desc < 126) { edid_desc_dummy(edid + desc); desc += 18; } /* =============== finish up =============== */ edid_fill_modes(edid, xtra3, dta, info->maxx, info->maxy); edid_checksum(edid); if (dta) { edid_checksum(dta); } } size_t qemu_edid_size(uint8_t *edid) { uint32_t exts; if (edid[0] != 0x00 || edid[1] != 0xff) { /* doesn't look like a valid edid block */ return 0; } exts = edid[126]; return 128 * (exts + 1); }