// SPDX-License-Identifier: MIT /* * Copyright 2006-2012 Red Hat, Inc. * Copyright 2018-2020 Cisco Systems, Inc. and/or its affiliates. All rights reserved. * * Author: Adam Jackson * Maintainer: Hans Verkuil */ #ifndef __EDID_DECODE_H_ #define __EDID_DECODE_H_ #include #include #include #include #define ARRAY_SIZE(x) (sizeof(x) / sizeof(*(x))) #define min(a, b) ((a) < (b) ? (a) : (b)) #define max(a, b) ((a) > (b) ? (a) : (b)) #define EDID_PAGE_SIZE 128U #define EDID_MAX_BLOCKS 256U #define RB_ALT (1U << 7) #define RB_NONE (0U) #define RB_CVT_V1 (1U) #define RB_CVT_V2 (2U) #define RB_CVT_V3 (3U) #define RB_GTF (4U) // Video Timings // If interlaced is true, then the vertical blanking // for each field is (vfp + vsync + vbp + 0.5), except for // the VIC 39 timings that doesn't have the 0.5 constant. // // The sequence of the various video parameters is as follows: // // border - front porch - sync - back porch - border - active video // // Note: this is slightly different from EDID 1.4 which calls // 'active video' as 'addressable video' and the EDID 1.4 term // 'active video' includes the borders. // // But since borders are rarely used, the term 'active video' will // typically be the same as 'addressable video', and that's how I // use it. struct timings { // Active horizontal and vertical frame height, excluding any // borders, if present. // Note: for interlaced formats the active field height is vact / 2 unsigned hact, vact; unsigned hratio, vratio; unsigned pixclk_khz; // 0: no reduced blanking // 1: CVT reduced blanking version 1 // 2: CVT reduced blanking version 2 // 2 | RB_ALT: CVT reduced blanking version 2 video-optimized (1000/1001 fps) // 3: CVT reduced blanking version 3 // 3 | RB_ALT: v3 with a horizontal blank of 160 // 4: GTF Secondary Curve unsigned rb; bool interlaced; // The horizontal frontporch may be negative in GTF calculations, // so use int instead of unsigned for hfp. Example: 292x176@76. int hfp; unsigned hsync; // The backporch may be negative in buggy detailed timings. // So use int instead of unsigned for hbp and vbp. int hbp; bool pos_pol_hsync; // For interlaced formats the vertical front porch of the Even Field // is actually a half-line longer. unsigned vfp, vsync; // For interlaced formats the vertical back porch of the Odd Field // is actually a half-line longer. int vbp; bool pos_pol_vsync; unsigned hborder, vborder; bool even_vtotal; // special for VIC 39 bool no_pol_vsync; // digital composite signals have no vsync polarity unsigned hsize_mm, vsize_mm; bool ycbcr420; // YCbCr 4:2:0 encoding }; struct timings_ext { timings_ext() { memset(&t, 0, sizeof(t)); } timings_ext(unsigned svr, const std::string &_type) { memset(&t, 0, sizeof(t)); t.hact = svr; type = _type; } timings_ext(const timings &_t, const std::string &_type, const std::string &_flags) { t = _t; type = _type; flags = _flags; } bool is_valid() const { return t.hact; } bool has_svr() const { return t.hact && !t.vact; } unsigned svr() const { return t.hact; } timings t; std::string type; std::string flags; }; enum gtf_ip_parm { gtf_ip_vert_freq = 1, gtf_ip_hor_freq, gtf_ip_clk_freq, }; typedef std::vector vec_timings_ext; struct cta_rid { unsigned hact, vact; unsigned hratio, vratio; }; struct cta_vfd { unsigned char rid; unsigned char fr_factor; unsigned int bfr50:1; unsigned int fr24:1; unsigned int bfr60:1; unsigned int fr144:1; unsigned int fr48:1; }; struct edid_state { edid_state() { // Global state edid_size = num_blocks = block_nr = 0; max_hor_freq_hz = max_vert_freq_hz = max_pixclk_khz = 0; min_hor_freq_hz = 0xffffff; min_vert_freq_hz = 0xffffffff; dtd_max_vsize_mm = dtd_max_hsize_mm = 0; warnings = failures = 0; has_cta = has_dispid = false; hide_serial_numbers = false; replace_unique_ids = false; image_width = image_height = diagonal = 0; // Base block state base.edid_minor = 0; base.has_name_descriptor = base.has_display_range_descriptor = base.has_serial_number = base.has_serial_string = base.supports_continuous_freq = base.supports_gtf = base.supports_cvt = base.seen_non_detailed_descriptor = base.has_640x480p60_est_timing = base.has_spwg = base.preferred_is_also_native = false; base.supports_sec_gtf = false; base.sec_gtf_start_freq = 0; base.C = base.M = base.K = base.J = 0; base.max_pos_neg_hor_freq_khz = 0; base.uses_srgb = false; base.detailed_block_cnt = base.dtd_cnt = 0; base.min_display_hor_freq_hz = base.max_display_hor_freq_hz = base.min_display_vert_freq_hz = base.max_display_vert_freq_hz = base.max_display_pixclk_khz = base.max_display_width_mm = base.max_display_height_mm = 0; // CTA-861 block state cta.has_vic_1 = cta.first_svd_might_be_preferred = cta.has_sldb = cta.has_hdmi = cta.has_vcdb = cta.has_vfpdb = cta.has_cdb = cta.has_nvrdb = false; cta.previous_cta_tag = 0xfff; cta.have_hf_vsdb = cta.have_hf_scdb = false; cta.hf_eeodb_blocks = 0; cta.image_width = cta.image_height = 0; cta.block_number = 0; cta.first_svd = true; cta.supported_hdmi_vic_codes = cta.supported_hdmi_vic_vsb_codes = 0; memset(cta.vics, 0, sizeof(cta.vics)); memset(cta.preparsed_has_vic, 0, sizeof(cta.preparsed_has_vic)); memset(&cta.preparsed_first_vfd, 0, sizeof(cta.preparsed_first_vfd)); cta.preparsed_phys_addr = 0xffff; cta.preparsed_speaker_count = 0; cta.preparsed_sld = false; cta.preparsed_sld_has_coord = false; cta.preparsed_total_dtds = 0; cta.preparsed_total_vtdbs = 0; cta.preparsed_has_t8vtdb = false; cta.preparsed_t8vtdb_dmt = 0; // DisplayID block state dispid.version = 0; dispid.native_width = dispid.native_height = 0; dispid.preparsed_color_ids = dispid.preparsed_xfer_ids = 0; dispid.preparsed_displayid_blocks = 0; dispid.is_base_block = true; dispid.is_display = dispid.has_product_identification = dispid.has_display_parameters = dispid.has_type_1_7 = dispid.has_display_interface_features = false; dispid.block_number = 0; dispid.image_width = dispid.image_height = 0; // Block Map block state block_map.saw_block_1 = false; block_map.saw_block_128 = false; } // Global state unsigned edid_size; unsigned num_blocks; unsigned block_nr; std::string block; std::string data_block; unsigned unused_bytes; bool has_cta; bool has_dispid; bool hide_serial_numbers; bool replace_unique_ids; unsigned min_hor_freq_hz; unsigned max_hor_freq_hz; double min_vert_freq_hz; double max_vert_freq_hz; unsigned max_pixclk_khz; unsigned dtd_max_hsize_mm; unsigned dtd_max_vsize_mm; // in 0.1 mm units unsigned image_width, image_height; // in inches double diagonal; unsigned warnings; unsigned failures; // Base block state struct { unsigned edid_minor; bool has_name_descriptor; bool has_display_range_descriptor; bool has_serial_number; bool has_serial_string; bool supports_continuous_freq; bool supports_gtf; bool supports_sec_gtf; unsigned sec_gtf_start_freq; double C, M, K, J; bool supports_cvt; bool has_spwg; bool uses_srgb; unsigned detailed_block_cnt; unsigned dtd_cnt; bool seen_non_detailed_descriptor; bool has_640x480p60_est_timing; bool preferred_is_also_native; timings_ext preferred_timing; unsigned min_display_hor_freq_hz; unsigned max_display_hor_freq_hz; unsigned min_display_vert_freq_hz; unsigned max_display_vert_freq_hz; unsigned max_display_pixclk_khz; unsigned max_display_width_mm; unsigned max_display_height_mm; unsigned max_pos_neg_hor_freq_khz; } base; // CTA-861 block state struct { unsigned preparsed_total_dtds; vec_timings_ext vec_dtds; unsigned preparsed_total_vtdbs; vec_timings_ext vec_vtdbs; cta_vfd preparsed_first_vfd; vec_timings_ext preferred_timings; vec_timings_ext preferred_timings_vfpdb; bool preparsed_has_t8vtdb; unsigned preparsed_t8vtdb_dmt; // Keep track of the found Tag/Extended Tag pairs. // The unsigned value is equal to: (tag) | (OUI enum << 12) or (extended tag) | (tag << 8) | (OUI enum << 12) std::vector found_tags; timings_ext t8vtdb; vec_timings_ext native_timings; vec_timings_ext native_timing_nvrdb; // in 0.1 mm units unsigned image_width, image_height; bool has_vic_1; bool first_svd_might_be_preferred; unsigned char byte3; bool has_hdmi; bool has_vcdb; bool has_vfpdb; bool has_nvrdb; bool has_cdb; unsigned preparsed_speaker_count; bool preparsed_sld_has_coord; bool preparsed_sld; bool has_sldb; unsigned short preparsed_phys_addr; unsigned previous_cta_tag; bool have_hf_vsdb, have_hf_scdb; unsigned hf_eeodb_blocks; unsigned block_number; bool first_svd; unsigned supported_hdmi_vic_codes; unsigned supported_hdmi_vic_vsb_codes; unsigned short vics[256][2]; bool preparsed_has_vic[2][256]; std::vector preparsed_svds[2]; } cta; // DisplayID block state struct { unsigned char version; unsigned short preparsed_color_ids; unsigned short preparsed_xfer_ids; unsigned preparsed_displayid_blocks; bool is_base_block; bool is_display; bool has_product_identification; bool has_display_parameters; bool has_type_1_7; bool has_display_interface_features; vec_timings_ext preferred_timings; unsigned native_width, native_height; // in 0.1 mm units unsigned image_width, image_height; unsigned block_number; // Keep track of the found CTA-861 Tag/Extended Tag pairs. // The unsigned value is equal to: (tag) | (OUI enum << 12) or (extended tag) | (tag << 8) | (OUI enum << 12) std::vector found_tags; } dispid; // Block Map block state struct { bool saw_block_1; bool saw_block_128; } block_map; std::string dtd_type(unsigned dtd); std::string dtd_type() { return dtd_type(base.dtd_cnt); } bool print_timings(const char *prefix, const struct timings *t, const char *type, const char *flags = "", bool detailed = false, bool do_checks = true); bool print_timings(const char *prefix, const struct timings_ext &t, bool detailed = false, bool do_checks = true) { return print_timings(prefix, &t.t, t.type.c_str(), t.flags.c_str(), detailed, do_checks); }; bool match_timings(const timings &t1, const timings &t2); timings calc_gtf_mode(unsigned h_pixels, unsigned v_lines, double ip_freq_rqd, bool int_rqd = false, enum gtf_ip_parm ip_parm = gtf_ip_vert_freq, bool margins_rqd = false, bool secondary = false, double C = 40, double M = 600, double K = 128, double J = 20); void edid_gtf_mode(unsigned refresh, struct timings &t); timings calc_cvt_mode(unsigned h_pixels, unsigned v_lines, double ip_freq_rqd, unsigned rb, bool int_rqd = false, bool margins_rqd = false, bool alt = false, unsigned rb_h_blank = 0, unsigned rb_v_blank = 460, bool early_vsync_rqd = false); void edid_cvt_mode(unsigned refresh, struct timings &t, unsigned rb_h_blank = 0, unsigned rb_v_blank = 460, bool early_vsync_rqd = false); void detailed_cvt_descriptor(const char *prefix, const unsigned char *x, bool first); timings calc_ovt_mode(unsigned hact, unsigned vact, unsigned hratio, unsigned vratio, unsigned frame_rate); void print_standard_timing(const char *prefix, unsigned char b1, unsigned char b2, bool gtf_only = false, bool show_both = false); void detailed_display_range_limits(const unsigned char *x); void detailed_epi(const unsigned char *x); void detailed_timings(const char *prefix, const unsigned char *x, bool base_or_cta = true); bool preparse_detailed_block(unsigned char *x); void preparse_base_block(unsigned char *x); void detailed_block(const unsigned char *x); void parse_base_block(const unsigned char *x); void check_base_block(const unsigned char *x); void list_dmts(); void list_established_timings(); void data_block_oui(std::string block_name, const unsigned char *x, unsigned length, unsigned *ouinum, bool ignorezeros = false, bool do_ascii = false, bool big_endian = false); void print_vic_index(const char *prefix, unsigned idx, const char *suffix, bool ycbcr420 = false); void hdmi_latency(unsigned char vid_lat, unsigned char aud_lat, bool is_ilaced); void cta_vcdb(const unsigned char *x, unsigned length); void cta_svd(const unsigned char *x, unsigned n, bool for_ycbcr420); void cta_vfdb(const unsigned char *x, unsigned n); void cta_y420cmdb(const unsigned char *x, unsigned length); void cta_print_svr(unsigned char svr, vec_timings_ext &vec_tim); void cta_vfpdb(const unsigned char *x, unsigned length); void cta_nvrdb(const unsigned char *x, unsigned length); cta_vfd cta_parse_vfd(const unsigned char *x, unsigned lvfd); void cta_rcdb(const unsigned char *x, unsigned length); void cta_sldb(const unsigned char *x, unsigned length); void cta_preparse_sldb(const unsigned char *x, unsigned length); void cta_colorimetry_block(const unsigned char *x, unsigned length); void cta_hdmi_block(const unsigned char *x, unsigned length); void cta_displayid_type_7(const unsigned char *x, unsigned length); void cta_displayid_type_8(const unsigned char *x, unsigned length); void cta_displayid_type_10(const unsigned char *x, unsigned length); void cta_block(const unsigned char *x, std::vector &found_tags); void preparse_cta_block(unsigned char *x); void parse_cta_block(const unsigned char *x); void cta_resolve_svr(timings_ext &t_ext); void cta_resolve_svrs(); void check_cta_blocks(); void cta_list_vics(); void cta_list_hdmi_vics(); void cta_list_rids(); void cta_list_rid_timings(unsigned list_rid = 0); void set_displayid_native_res(unsigned w, unsigned h); void parse_digital_interface(const unsigned char *x); void parse_display_device(const unsigned char *x); void parse_display_caps(const unsigned char *x); void parse_display_xfer(const unsigned char *x); void parse_di_ext_block(const unsigned char *x); void check_displayid_datablock_revision(unsigned char hdr, unsigned char valid_flags = 0, unsigned char rev = 0); void parse_displayid_product_id(const unsigned char *x); std::string product_type(unsigned char x, bool heading); void parse_displayid_interface_features(const unsigned char *x); void parse_displayid_parameters(const unsigned char *x); void parse_displayid_parameters_v2(const unsigned char *x, unsigned block_rev); void parse_displayid_display_intf(const unsigned char *x); void parse_displayid_color_characteristics(const unsigned char *x); void parse_displayid_transfer_characteristics(const unsigned char *x); void parse_displayid_stereo_display_intf(const unsigned char *x); void parse_displayid_type_1_7_timing(const unsigned char *x, bool type7, unsigned block_rev, bool is_cta = false); void parse_displayid_type_2_timing(const unsigned char *x); void parse_displayid_type_3_timing(const unsigned char *x); void parse_displayid_type_4_8_timing(unsigned char type, unsigned short id, bool is_cta = false); void parse_displayid_video_timing_range_limits(const unsigned char *x); void parse_displayid_string(const unsigned char *x); void parse_displayid_display_device(const unsigned char *x); void parse_displayid_intf_power_sequencing(const unsigned char *x); void parse_displayid_type_5_timing(const unsigned char *x); void parse_displayid_tiled_display_topology(const unsigned char *x, bool is_v2); void parse_displayid_type_6_timing(const unsigned char *x); void parse_displayid_type_9_timing(const unsigned char *x); void parse_displayid_dynamic_video_timings_range_limits(const unsigned char *x); void parse_displayid_ContainerID(const unsigned char *x); void parse_displayid_adaptive_sync(const unsigned char *x); void parse_displayid_type_10_timing(const unsigned char *x, unsigned sz, bool is_cta = false); void preparse_displayid_block(unsigned char *x); unsigned displayid_block(const unsigned version, const unsigned char *x, unsigned length); void parse_displayid_block(const unsigned char *x); void parse_displayid_vesa(const unsigned char *x); void parse_displayid_apple(const unsigned char *x); void parse_displayid_cta_data_block(const unsigned char *x); void check_displayid_blocks(); void parse_vtb_ext_block(const unsigned char *x); void parse_string_table(const unsigned char *x); void preparse_ls_ext_block(unsigned char *x); void parse_ls_ext_block(const unsigned char *x); void parse_block_map(const unsigned char *x); void preparse_extension(unsigned char *x); void parse_extension(const unsigned char *x); void print_preferred_timings(); void print_native_res(); int parse_edid(); }; static inline void add_str(std::string &s, const std::string &add) { if (s.empty()) s = add; else if (!add.empty()) s = s + ", " + add; } void msg(bool is_warn, const char *fmt, ...); #ifdef _WIN32 #define warn(fmt, ...) msg(true, fmt, __VA_ARGS__) #define warn_once(fmt, ...) \ do { \ static bool shown_warn; \ if (!shown_warn) { \ shown_warn = true; \ msg(true, fmt, __VA_ARGS__); \ } \ } while (0) #define fail(fmt, ...) msg(false, fmt, __VA_ARGS__) #else #define warn(fmt, args...) msg(true, fmt, ##args) #define warn_once(fmt, args...) \ do { \ static bool shown_warn; \ if (!shown_warn) { \ shown_warn = true; \ msg(true, fmt, ##args); \ } \ } while (0) #define fail(fmt, args...) msg(false, fmt, ##args) #endif std::string utohex(unsigned char x); std::string ouitohex(unsigned oui); std::string containerid2s(const unsigned char *x); bool memchk(const unsigned char *x, unsigned len, unsigned char v = 0); void hex_block(const char *prefix, const unsigned char *x, unsigned length, bool show_ascii = true, unsigned step = 16); std::string block_name(unsigned char block); void do_checksum(const char *prefix, const unsigned char *x, size_t len, unsigned unused_bytes = 0); void replace_checksum(unsigned char *x, size_t len); void calc_ratio(struct timings *t); const char *oui_name(unsigned oui, unsigned *ouinum = NULL); unsigned gcd(unsigned a, unsigned b); bool timings_close_match(const timings &t1, const timings &t2); const struct timings *find_dmt_id(unsigned char dmt_id); const struct timings *close_match_to_dmt(const timings &t, unsigned &dmt); const struct timings *find_vic_id(unsigned char vic); const struct cta_rid *find_rid(unsigned char rid); const struct timings *find_hdmi_vic_id(unsigned char hdmi_vic); const struct timings *cta_close_match_to_vic(const timings &t, unsigned &vic); unsigned char hdmi_vic_to_vic(unsigned char hdmi_vic); char *extract_string(const unsigned char *x, unsigned len); #define oneoui(c,k,n) const unsigned kOUI_##k = __LINE__<<12; #include "oui.h" #endif