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/*
* Copyright © 2009 Intel Corporation
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*
* Authors:
* Zhenyu Wang <zhenyu.z.wang@intel.com>
* Wu Fengguang <fengguang.wu@intel.com>
*
*/
#define _GNU_SOURCE
#include <unistd.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <err.h>
#include <arpa/inet.h>
#include "intel_gpu_tools.h"
#include "intel_reg.h"
#include "intel_chipset.h"
#include "drmtest.h"
static uint32_t devid;
static int aud_reg_base = 0; /* base address of audio registers */
static int disp_reg_base = 0; /* base address of display registers */
#define IS_HASWELL_PLUS(devid) (IS_HASWELL(devid) || IS_BROADWELL(devid))
#define BITSTO(n) (n >= sizeof(long) * 8 ? ~0 : (1UL << (n)) - 1)
#define BITMASK(high, low) (BITSTO(high+1) & ~BITSTO(low))
#define BITS(reg, high, low) (((reg) & (BITMASK(high, low))) >> (low))
#define BIT(reg, n) BITS(reg, n, n)
#define min_t(type, x, y) ({ \
type __min1 = (x); \
type __min2 = (y); \
__min1 < __min2 ? __min1 : __min2; })
#define OPNAME(names, index) \
names[min_t(unsigned int, index, ARRAY_SIZE(names) - 1)]
#define set_aud_reg_base(base) (aud_reg_base = (base))
#define set_reg_base(base, audio_offset) \
do { \
disp_reg_base = (base); \
set_aud_reg_base((base) + (audio_offset)); \
} while (0)
#define dump_reg(reg, desc) \
do { \
dword = INREG(reg); \
printf("%-21s 0x%08x %s\n", # reg, dword, desc); \
} while (0)
#define dump_disp_reg(reg, desc) \
do { \
dword = INREG(disp_reg_base + reg); \
printf("%-21s 0x%08x %s\n", # reg, dword, desc); \
} while (0)
#define dump_aud_reg(reg, desc) \
do { \
dword = INREG(aud_reg_base + reg); \
printf("%-21s 0x%08x %s\n", # reg, dword, desc); \
} while (0)
#define read_aud_reg(reg) INREG(aud_reg_base + (reg))
static int get_num_pipes(void)
{
int num_pipes;
if (IS_VALLEYVIEW(devid))
num_pipes = 2; /* Valleyview is Gen 7 but only has 2 pipes */
else if (IS_G4X(devid) || IS_GEN5(devid))
num_pipes = 2;
else
num_pipes = 3;
return num_pipes;
}
static const char * const cts_m_value_index[] = {
[0] = "CTS",
[1] = "M",
};
static const char * const pixel_clock[] = {
[0] = "25.2 / 1.001 MHz",
[1] = "25.2 MHz",
[2] = "27 MHz",
[3] = "27 * 1.001 MHz",
[4] = "54 MHz",
[5] = "54 * 1.001 MHz",
[6] = "74.25 / 1.001 MHz",
[7] = "74.25 MHz",
[8] = "148.5 / 1.001 MHz",
[9] = "148.5 MHz",
[10] = "Reserved",
};
static const char * const power_state[] = {
[0] = "D0",
[1] = "D1",
[2] = "D2",
[3] = "D3",
};
static const char * const stream_type[] = {
[0] = "default samples",
[1] = "one bit stream",
[2] = "DST stream",
[3] = "MLP stream",
[4] = "Reserved",
};
static const char * const dip_port[] = {
[0] = "Reserved",
[1] = "Digital Port B",
[2] = "Digital Port C",
[3] = "Digital Port D",
};
static const char * const dip_type[] = {
[0] = "Audio DIP Disabled",
[1] = "Audio DIP Enabled",
};
static const char * const dip_gen1_state[] = {
[0] = "Generic 1 (ACP) DIP Disabled",
[1] = "Generic 1 (ACP) DIP Enabled",
};
static const char * const dip_gen2_state[] = {
[0] = "Generic 2 DIP Disabled",
[1] = "Generic 2 DIP Enabled",
};
static const char * const dip_index[] = {
[0] = "Audio DIP",
[1] = "ACP DIP",
[2] = "ISRC1 DIP",
[3] = "ISRC2 DIP",
[4] = "Reserved",
};
static const char * const dip_trans[] = {
[0] = "disabled",
[1] = "reserved",
[2] = "send once",
[3] = "best effort",
};
static const char * const video_dip_index[] = {
[0] = "AVI DIP",
[1] = "Vendor-specific DIP",
[2] = "Gamut Metadata DIP",
[3] = "Source Product Description DIP",
};
static const char * const video_dip_trans[] = {
[0] = "send once",
[1] = "send every vsync",
[2] = "send at least every other vsync",
[3] = "reserved",
};
static const char * const trans_to_port_sel[] = {
[0] = "no port",
[1] = "Digital Port B",
[2] = "Digital Port C",
[3] = "Digital Port D",
[4] = "reserved",
[5] = "reserved",
[6] = "reserved",
[7] = "reserved",
};
static const char * const ddi_mode[] = {
[0] = "HDMI mode",
[1] = "DVI mode",
[2] = "DP SST mode",
[3] = "DP MST mode",
[4] = "DP FDI mode",
[5] = "reserved",
[6] = "reserved",
[7] = "reserved",
};
static const char * const bits_per_color[] = {
[0] = "8 bpc",
[1] = "10 bpc",
[2] = "6 bpc",
[3] = "12 bpc",
[4] = "reserved",
[5] = "reserved",
[6] = "reserved",
[7] = "reserved",
};
static const char * const transcoder_select[] = {
[0] = "Transcoder A",
[1] = "Transcoder B",
[2] = "Transcoder C",
[3] = "reserved",
};
static const char * const dp_port_width[] = {
[0] = "x1 mode",
[1] = "x2 mode",
[2] = "reserved",
[3] = "x4 mode",
[4] = "reserved",
[5] = "reserved",
[6] = "reserved",
[7] = "reserved",
};
static const char * const sample_base_rate[] = {
[0] = "48 kHz",
[1] = "44.1 kHz",
};
static const char * const sample_base_rate_mult[] = {
[0] = "x1 (48 kHz, 44.1 kHz or less)",
[1] = "x2 (96 kHz, 88.2 kHz, 32 kHz)",
[2] = "x3 (144 kHz)",
[3] = "x4 (192 kHz, 176.4 kHz)",
[4] = "Reserved",
};
static const char * const sample_base_rate_divisor[] = {
[0] = "Divided by 1 (48 kHz, 44.1 kHz)",
[1] = "Divided by 2 (24 kHz, 22.05 kHz)",
[2] = "Divided by 3 (16 kHz, 32 kHz)",
[3] = "Divided by 4 (11.025 kHz)",
[4] = "Divided by 5 (9.6 kHz)",
[5] = "Divided by 6 (8 kHz)",
[6] = "Divided by 7",
[7] = "Divided by 8 (6 kHz)",
};
static const char * const connect_list_form[] = {
[0] = "Short Form",
[1] = "Long Form",
};
static const char * const bits_per_sample[] = {
[0] = "reserved",
[1] = "16 bits",
[2] = "24 bits",
[3] = "32 bits",
[4] = "20 bits",
[5] = "reserved",
};
static const char * const sdvo_hdmi_encoding[] = {
[0] = "SDVO",
[1] = "reserved",
[2] = "TMDS",
[3] = "reserved",
};
static const char * const n_index_value[] = {
[0] = "HDMI",
[1] = "DisplayPort",
};
static const char * const immed_result_valid[] = {
[0] = "No immediate response is available",
[1] = "Immediate response is available",
};
static const char * const immed_cmd_busy[] = {
[0] = "Can accept an immediate command",
[1] = "Immediate command is available",
};
static const char * const vanilla_dp12_en[] = {
[0] = "DP 1.2 features are disabled",
[1] = "DP 1.2 features are enabled",
};
static const char * const vanilla_3_widgets_en[] = {
[0] = "2nd & 3rd pin/convertor widgets are disabled",
[1] = "All three pin/convertor widgets are enabled",
};
static const char * const block_audio[] = {
[0] = "Allow audio data to reach the port",
[1] = "Block audio data from reaching the port",
};
static const char * const dis_eld_valid_pulse_trans[] = {
[0] = "Enable ELD valid pulse transition when unsol is disabled",
[1] = "Disable ELD valid pulse transition when unsol is disabled",
};
static const char * const dis_pd_pulse_trans[] = {
[0] = "Enable Presense Detect pulse transition when unsol is disabled",
[1] = "Disable Presense Detect pulse transition when unsol is disabled",
};
static const char * const dis_ts_delta_err[] = {
[0] = "Enable timestamp delta error for 32/44 KHz",
[1] = "Disable timestamp delta error for 32/44 KHz",
};
static const char * const dis_ts_fix_dp_hbr[] = {
[0] = "Enable timestamp fix for DP HBR",
[1] = "Disable timestamp fix for DP HBR",
};
static const char * const pattern_gen_8_ch_en[] = {
[0] = "Disable 8-channel pattern generator",
[1] = "Enable 8-channel pattern generator",
};
static const char * const pattern_gen_2_ch_en[] = {
[0] = "Disable 2-channel pattern generator",
[1] = "Enable 2-channel pattern generator",
};
static const char * const fabric_32_44_dis[] = {
[0] = "Allow sample fabrication for 32/44 KHz",
[1] = "Disable sample fabrication for 32/44 KHz",
};
static const char * const epss_dis[] = {
[0] = "Allow audio EPSS",
[1] = "Disable audio EPSS",
};
static const char * const ts_test_mode[] = {
[0] = "Default time stamp mode",
[1] = "Audio time stamp test mode for audio only feature",
};
static const char * const en_mmio_program[] = {
[0] = "Programming by HD-Audio Azalia",
[1] = "Programming by MMIO debug registers",
};
static const char * const audio_dp_dip_status[] = {
[0] = "audfc dp fifo full",
[1] = "audfc dp fifo empty",
[2] = "audfc dp fifo overrun",
[3] = "audfc dip fifo full",
[4] = "audfc dp fifo empty cd",
[5] = "audfb dp fifo full",
[6] = "audfb dp fifo empty",
[7] = "audfb dp fifo overrun",
[8] = "audfb dip fifo full",
[9] = "audfb dp fifo empty cd",
[10] = "audfa dp fifo full",
[11] = "audfa dp fifo empty",
[12] = "audfa dp fifo overrun",
[13] = "audfa dip fifo full",
[14] = "audfa dp fifo empty cd",
[15] = "Pipe c audio overflow",
[16] = "Pipe b audio overflow",
[17] = "Pipe a audio overflow",
[31] = 0,
};
#undef TRANSCODER_A
#undef TRANSCODER_B
#undef TRANSCODER_C
enum {
TRANSCODER_A = 0,
TRANSCODER_B,
TRANSCODER_C,
};
enum {
PIPE_A = 0,
PIPE_B,
PIPE_C,
};
enum {
PORT_A = 0,
PORT_B,
PORT_C,
PORT_D,
PORT_E,
};
enum {
CONVERTER_1 = 0,
CONVERTER_2,
CONVERTER_3,
};
static void do_self_tests(void)
{
if (BIT(1, 0) != 1)
exit(1);
if (BIT(0x80000000, 31) != 1)
exit(2);
if (BITS(0xc0000000, 31, 30) != 3)
exit(3);
}
/*
* EagleLake registers
*/
#define AUD_CONFIG 0x62000
#define AUD_DEBUG 0x62010
#define AUD_VID_DID 0x62020
#define AUD_RID 0x62024
#define AUD_SUBN_CNT 0x62028
#define AUD_FUNC_GRP 0x62040
#define AUD_SUBN_CNT2 0x62044
#define AUD_GRP_CAP 0x62048
#define AUD_PWRST 0x6204c
#define AUD_SUPPWR 0x62050
#define AUD_SID 0x62054
#define AUD_OUT_CWCAP 0x62070
#define AUD_OUT_PCMSIZE 0x62074
#define AUD_OUT_STR 0x62078
#define AUD_OUT_DIG_CNVT 0x6207c
#define AUD_OUT_CH_STR 0x62080
#define AUD_OUT_STR_DESC 0x62084
#define AUD_PINW_CAP 0x620a0
#define AUD_PIN_CAP 0x620a4
#define AUD_PINW_CONNLNG 0x620a8
#define AUD_PINW_CONNLST 0x620ac
#define AUD_PINW_CNTR 0x620b0
#define AUD_PINW_UNSOLRESP 0x620b8
#define AUD_CNTL_ST 0x620b4
#define AUD_PINW_CONFIG 0x620bc
#define AUD_HDMIW_STATUS 0x620d4
#define AUD_HDMIW_HDMIEDID 0x6210c
#define AUD_HDMIW_INFOFR 0x62118
#define AUD_CONV_CHCNT 0x62120
#define AUD_CTS_ENABLE 0x62128
#define VIDEO_DIP_CTL 0x61170
#define VIDEO_DIP_ENABLE (1<<31)
#define VIDEO_DIP_ENABLE_AVI (1<<21)
#define VIDEO_DIP_ENABLE_VENDOR (1<<22)
#define VIDEO_DIP_ENABLE_SPD (1<<24)
#define VIDEO_DIP_BUF_AVI (0<<19)
#define VIDEO_DIP_BUF_VENDOR (1<<19)
#define VIDEO_DIP_BUF_SPD (3<<19)
#define VIDEO_DIP_TRANS_ONCE (0<<16)
#define VIDEO_DIP_TRANS_1 (1<<16)
#define VIDEO_DIP_TRANS_2 (2<<16)
#define AUDIO_HOTPLUG_EN (1<<24)
static void dump_eaglelake(void)
{
uint32_t dword;
int i;
/* printf("%-18s %8s %s\n\n", "register name", "raw value", "description"); */
dump_reg(VIDEO_DIP_CTL, "Video DIP Control");
dump_reg(SDVOB, "Digital Display Port B Control Register");
dump_reg(SDVOC, "Digital Display Port C Control Register");
dump_reg(PORT_HOTPLUG_EN, "Hot Plug Detect Enable");
dump_reg(AUD_CONFIG, "Audio Configuration");
dump_reg(AUD_DEBUG, "Audio Debug");
dump_reg(AUD_VID_DID, "Audio Vendor ID / Device ID");
dump_reg(AUD_RID, "Audio Revision ID");
dump_reg(AUD_SUBN_CNT, "Audio Subordinate Node Count");
dump_reg(AUD_FUNC_GRP, "Audio Function Group Type");
dump_reg(AUD_SUBN_CNT2, "Audio Subordinate Node Count");
dump_reg(AUD_GRP_CAP, "Audio Function Group Capabilities");
dump_reg(AUD_PWRST, "Audio Power State");
dump_reg(AUD_SUPPWR, "Audio Supported Power States");
dump_reg(AUD_SID, "Audio Root Node Subsystem ID");
dump_reg(AUD_OUT_CWCAP, "Audio Output Converter Widget Capabilities");
dump_reg(AUD_OUT_PCMSIZE, "Audio PCM Size and Rates");
dump_reg(AUD_OUT_STR, "Audio Stream Formats");
dump_reg(AUD_OUT_DIG_CNVT, "Audio Digital Converter");
dump_reg(AUD_OUT_CH_STR, "Audio Channel ID and Stream ID");
dump_reg(AUD_OUT_STR_DESC, "Audio Stream Descriptor Format");
dump_reg(AUD_PINW_CAP, "Audio Pin Complex Widget Capabilities");
dump_reg(AUD_PIN_CAP, "Audio Pin Capabilities");
dump_reg(AUD_PINW_CONNLNG, "Audio Connection List Length");
dump_reg(AUD_PINW_CONNLST, "Audio Connection List Entry");
dump_reg(AUD_PINW_CNTR, "Audio Pin Widget Control");
dump_reg(AUD_PINW_UNSOLRESP, "Audio Unsolicited Response Enable");
dump_reg(AUD_CNTL_ST, "Audio Control State Register");
dump_reg(AUD_PINW_CONFIG, "Audio Configuration Default");
dump_reg(AUD_HDMIW_STATUS, "Audio HDMI Status");
dump_reg(AUD_HDMIW_HDMIEDID, "Audio HDMI Data EDID Block");
dump_reg(AUD_HDMIW_INFOFR, "Audio HDMI Widget Data Island Packet");
dump_reg(AUD_CONV_CHCNT, "Audio Converter Channel Count");
dump_reg(AUD_CTS_ENABLE, "Audio CTS Programming Enable");
printf("\nDetails:\n\n");
dword = INREG(AUD_VID_DID);
printf("AUD_VID_DID vendor id\t\t\t0x%x\n", dword >> 16);
printf("AUD_VID_DID device id\t\t\t0x%x\n", dword & 0xffff);
dword = INREG(AUD_RID);
printf("AUD_RID major revision\t\t\t0x%lx\n", BITS(dword, 23, 20));
printf("AUD_RID minor revision\t\t\t0x%lx\n", BITS(dword, 19, 16));
printf("AUD_RID revision id\t\t\t0x%lx\n", BITS(dword, 15, 8));
printf("AUD_RID stepping id\t\t\t0x%lx\n", BITS(dword, 7, 0));
dword = INREG(SDVOB);
printf("SDVOB enable\t\t\t\t%u\n", !!(dword & SDVO_ENABLE));
printf("SDVOB HDMI encoding\t\t\t%u\n", !!(dword & SDVO_ENCODING_HDMI));
printf("SDVOB SDVO encoding\t\t\t%u\n", !!(dword & SDVO_ENCODING_SDVO));
printf("SDVOB null packets\t\t\t%u\n", !!(dword & SDVO_NULL_PACKETS_DURING_VSYNC));
printf("SDVOB audio enabled\t\t\t%u\n", !!(dword & SDVO_AUDIO_ENABLE));
dword = INREG(SDVOC);
printf("SDVOC enable\t\t\t\t%u\n", !!(dword & SDVO_ENABLE));
printf("SDVOC HDMI encoding\t\t\t%u\n", !!(dword & SDVO_ENCODING_HDMI));
printf("SDVOC SDVO encoding\t\t\t%u\n", !!(dword & SDVO_ENCODING_SDVO));
printf("SDVOC null packets\t\t\t%u\n", !!(dword & SDVO_NULL_PACKETS_DURING_VSYNC));
printf("SDVOC audio enabled\t\t\t%u\n", !!(dword & SDVO_AUDIO_ENABLE));
dword = INREG(PORT_HOTPLUG_EN);
printf("PORT_HOTPLUG_EN DisplayPort/HDMI port B\t%ld\n", BIT(dword, 29)),
printf("PORT_HOTPLUG_EN DisplayPort/HDMI port C\t%ld\n", BIT(dword, 28)),
printf("PORT_HOTPLUG_EN DisplayPort port D\t%ld\n", BIT(dword, 27)),
printf("PORT_HOTPLUG_EN SDVOB\t\t\t%ld\n", BIT(dword, 26)),
printf("PORT_HOTPLUG_EN SDVOC\t\t\t%ld\n", BIT(dword, 25)),
printf("PORT_HOTPLUG_EN audio\t\t\t%ld\n", BIT(dword, 24)),
printf("PORT_HOTPLUG_EN TV\t\t\t%ld\n", BIT(dword, 23)),
printf("PORT_HOTPLUG_EN CRT\t\t\t%ld\n", BIT(dword, 9)),
dword = INREG(VIDEO_DIP_CTL);
printf("VIDEO_DIP_CTL enable graphics DIP\t%ld\n", BIT(dword, 31)),
printf("VIDEO_DIP_CTL port select\t\t[0x%lx] %s\n",
BITS(dword, 30, 29), dip_port[BITS(dword, 30, 29)]);
printf("VIDEO_DIP_CTL DIP buffer trans active\t%lu\n", BIT(dword, 28));
printf("VIDEO_DIP_CTL AVI DIP enabled\t\t%lu\n", BIT(dword, 21));
printf("VIDEO_DIP_CTL vendor DIP enabled\t%lu\n", BIT(dword, 22));
printf("VIDEO_DIP_CTL SPD DIP enabled\t\t%lu\n", BIT(dword, 24));
printf("VIDEO_DIP_CTL DIP buffer index\t\t[0x%lx] %s\n",
BITS(dword, 20, 19), video_dip_index[BITS(dword, 20, 19)]);
printf("VIDEO_DIP_CTL DIP trans freq\t\t[0x%lx] %s\n",
BITS(dword, 17, 16), video_dip_trans[BITS(dword, 17, 16)]);
printf("VIDEO_DIP_CTL DIP buffer size\t\t%lu\n", BITS(dword, 11, 8));
printf("VIDEO_DIP_CTL DIP address\t\t%lu\n", BITS(dword, 3, 0));
dword = INREG(AUD_CONFIG);
printf("AUD_CONFIG pixel clock\t\t\t[0x%lx] %s\n", BITS(dword, 19, 16),
OPNAME(pixel_clock, BITS(dword, 19, 16)));
printf("AUD_CONFIG fabrication enabled\t\t%lu\n", BITS(dword, 2, 2));
printf("AUD_CONFIG professional use allowed\t%lu\n", BIT(dword, 1));
printf("AUD_CONFIG fuse enabled\t\t\t%lu\n", BIT(dword, 0));
dword = INREG(AUD_DEBUG);
printf("AUD_DEBUG function reset\t\t%lu\n", BIT(dword, 0));
dword = INREG(AUD_SUBN_CNT);
printf("AUD_SUBN_CNT starting node number\t0x%lx\n", BITS(dword, 23, 16));
printf("AUD_SUBN_CNT total number of nodes\t0x%lx\n", BITS(dword, 7, 0));
dword = INREG(AUD_SUBN_CNT2);
printf("AUD_SUBN_CNT2 starting node number\t0x%lx\n", BITS(dword, 24, 16));
printf("AUD_SUBN_CNT2 total number of nodes\t0x%lx\n", BITS(dword, 7, 0));
dword = INREG(AUD_FUNC_GRP);
printf("AUD_FUNC_GRP unsol capable\t\t%lu\n", BIT(dword, 8));
printf("AUD_FUNC_GRP node type\t\t\t0x%lx\n", BITS(dword, 7, 0));
dword = INREG(AUD_GRP_CAP);
printf("AUD_GRP_CAP beep 0\t\t\t%lu\n", BIT(dword, 16));
printf("AUD_GRP_CAP input delay\t\t\t%lu\n", BITS(dword, 11, 8));
printf("AUD_GRP_CAP output delay\t\t%lu\n", BITS(dword, 3, 0));
dword = INREG(AUD_PWRST);
printf("AUD_PWRST device power state\t\t%s\n",
power_state[BITS(dword, 5, 4)]);
printf("AUD_PWRST device power state setting\t%s\n",
power_state[BITS(dword, 1, 0)]);
dword = INREG(AUD_SUPPWR);
printf("AUD_SUPPWR support D0\t\t\t%lu\n", BIT(dword, 0));
printf("AUD_SUPPWR support D1\t\t\t%lu\n", BIT(dword, 1));
printf("AUD_SUPPWR support D2\t\t\t%lu\n", BIT(dword, 2));
printf("AUD_SUPPWR support D3\t\t\t%lu\n", BIT(dword, 3));
dword = INREG(AUD_OUT_CWCAP);
printf("AUD_OUT_CWCAP widget type\t\t0x%lx\n", BITS(dword, 23, 20));
printf("AUD_OUT_CWCAP sample delay\t\t0x%lx\n", BITS(dword, 19, 16));
printf("AUD_OUT_CWCAP channel count\t\t%lu\n",
BITS(dword, 15, 13) * 2 + BIT(dword, 0) + 1);
printf("AUD_OUT_CWCAP L-R swap\t\t\t%lu\n", BIT(dword, 11));
printf("AUD_OUT_CWCAP power control\t\t%lu\n", BIT(dword, 10));
printf("AUD_OUT_CWCAP digital\t\t\t%lu\n", BIT(dword, 9));
printf("AUD_OUT_CWCAP conn list\t\t\t%lu\n", BIT(dword, 8));
printf("AUD_OUT_CWCAP unsol\t\t\t%lu\n", BIT(dword, 7));
printf("AUD_OUT_CWCAP mute\t\t\t%lu\n", BIT(dword, 5));
printf("AUD_OUT_CWCAP format override\t\t%lu\n", BIT(dword, 4));
printf("AUD_OUT_CWCAP amp param override\t%lu\n", BIT(dword, 3));
printf("AUD_OUT_CWCAP out amp present\t\t%lu\n", BIT(dword, 2));
printf("AUD_OUT_CWCAP in amp present\t\t%lu\n", BIT(dword, 1));
dword = INREG(AUD_OUT_DIG_CNVT);
printf("AUD_OUT_DIG_CNVT SPDIF category\t\t0x%lx\n", BITS(dword, 14, 8));
printf("AUD_OUT_DIG_CNVT SPDIF level\t\t%lu\n", BIT(dword, 7));
printf("AUD_OUT_DIG_CNVT professional\t\t%lu\n", BIT(dword, 6));
printf("AUD_OUT_DIG_CNVT non PCM\t\t%lu\n", BIT(dword, 5));
printf("AUD_OUT_DIG_CNVT copyright asserted\t%lu\n", BIT(dword, 4));
printf("AUD_OUT_DIG_CNVT filter preemphasis\t%lu\n", BIT(dword, 3));
printf("AUD_OUT_DIG_CNVT validity config\t%lu\n", BIT(dword, 2));
printf("AUD_OUT_DIG_CNVT validity flag\t\t%lu\n", BIT(dword, 1));
printf("AUD_OUT_DIG_CNVT digital enable\t\t%lu\n", BIT(dword, 0));
dword = INREG(AUD_OUT_CH_STR);
printf("AUD_OUT_CH_STR stream id\t\t0x%lx\n", BITS(dword, 7, 4));
printf("AUD_OUT_CH_STR lowest channel\t\t%lu\n", BITS(dword, 3, 0));
dword = INREG(AUD_OUT_STR_DESC);
printf("AUD_OUT_STR_DESC stream channels\t%lu\n", BITS(dword, 3, 0) + 1);
printf("AUD_OUT_STR_DESC Bits per Sample\t[%#lx] %s\n",
BITS(dword, 6, 4), OPNAME(bits_per_sample, BITS(dword, 6, 4)));
dword = INREG(AUD_PINW_CAP);
printf("AUD_PINW_CAP widget type\t\t0x%lx\n", BITS(dword, 23, 20));
printf("AUD_PINW_CAP sample delay\t\t0x%lx\n", BITS(dword, 19, 16));
printf("AUD_PINW_CAP channel count\t\t%lu\n",
BITS(dword, 15, 13) * 2 + BIT(dword, 0) + 1);
printf("AUD_PINW_CAP HDCP\t\t\t%lu\n", BIT(dword, 12));
printf("AUD_PINW_CAP L-R swap\t\t\t%lu\n", BIT(dword, 11));
printf("AUD_PINW_CAP power control\t\t%lu\n", BIT(dword, 10));
printf("AUD_PINW_CAP digital\t\t\t%lu\n", BIT(dword, 9));
printf("AUD_PINW_CAP conn list\t\t\t%lu\n", BIT(dword, 8));
printf("AUD_PINW_CAP unsol\t\t\t%lu\n", BIT(dword, 7));
printf("AUD_PINW_CAP mute\t\t\t%lu\n", BIT(dword, 5));
printf("AUD_PINW_CAP format override\t\t%lu\n", BIT(dword, 4));
printf("AUD_PINW_CAP amp param override\t\t%lu\n", BIT(dword, 3));
printf("AUD_PINW_CAP out amp present\t\t%lu\n", BIT(dword, 2));
printf("AUD_PINW_CAP in amp present\t\t%lu\n", BIT(dword, 1));
dword = INREG(AUD_PIN_CAP);
printf("AUD_PIN_CAP EAPD\t\t\t%lu\n", BIT(dword, 16));
printf("AUD_PIN_CAP HDMI\t\t\t%lu\n", BIT(dword, 7));
printf("AUD_PIN_CAP output\t\t\t%lu\n", BIT(dword, 4));
printf("AUD_PIN_CAP presence detect\t\t%lu\n", BIT(dword, 2));
dword = INREG(AUD_PINW_CNTR);
printf("AUD_PINW_CNTR mute status\t\t%lu\n", BIT(dword, 8));
printf("AUD_PINW_CNTR out enable\t\t%lu\n", BIT(dword, 6));
printf("AUD_PINW_CNTR amp mute status\t\t%lu\n", BIT(dword, 8));
printf("AUD_PINW_CNTR amp mute status\t\t%lu\n", BIT(dword, 8));
printf("AUD_PINW_CNTR stream type\t\t[0x%lx] %s\n",
BITS(dword, 2, 0),
OPNAME(stream_type, BITS(dword, 2, 0)));
dword = INREG(AUD_PINW_UNSOLRESP);
printf("AUD_PINW_UNSOLRESP enable unsol resp\t%lu\n", BIT(dword, 31));
dword = INREG(AUD_CNTL_ST);
printf("AUD_CNTL_ST DIP audio enabled\t\t%lu\n", BIT(dword, 21));
printf("AUD_CNTL_ST DIP ACP enabled\t\t%lu\n", BIT(dword, 22));
printf("AUD_CNTL_ST DIP ISRCx enabled\t\t%lu\n", BIT(dword, 23));
printf("AUD_CNTL_ST DIP port select\t\t[0x%lx] %s\n",
BITS(dword, 30, 29), dip_port[BITS(dword, 30, 29)]);
printf("AUD_CNTL_ST DIP buffer index\t\t[0x%lx] %s\n",
BITS(dword, 20, 18), OPNAME(dip_index, BITS(dword, 20, 18)));
printf("AUD_CNTL_ST DIP trans freq\t\t[0x%lx] %s\n",
BITS(dword, 17, 16), dip_trans[BITS(dword, 17, 16)]);
printf("AUD_CNTL_ST DIP address\t\t\t%lu\n", BITS(dword, 3, 0));
printf("AUD_CNTL_ST CP ready\t\t\t%lu\n", BIT(dword, 15));
printf("AUD_CNTL_ST ELD valid\t\t\t%lu\n", BIT(dword, 14));
printf("AUD_CNTL_ST ELD ack\t\t\t%lu\n", BIT(dword, 4));
printf("AUD_CNTL_ST ELD bufsize\t\t\t%lu\n", BITS(dword, 13, 9));
printf("AUD_CNTL_ST ELD address\t\t\t%lu\n", BITS(dword, 8, 5));
dword = INREG(AUD_HDMIW_STATUS);
printf("AUD_HDMIW_STATUS CDCLK/DOTCLK underrun\t%lu\n", BIT(dword, 31));
printf("AUD_HDMIW_STATUS CDCLK/DOTCLK overrun\t%lu\n", BIT(dword, 30));
printf("AUD_HDMIW_STATUS BCLK/CDCLK underrun\t%lu\n", BIT(dword, 29));
printf("AUD_HDMIW_STATUS BCLK/CDCLK overrun\t%lu\n", BIT(dword, 28));
dword = INREG(AUD_CONV_CHCNT);
printf("AUD_CONV_CHCNT HDMI HBR enabled\t\t%lu\n", BITS(dword, 15, 14));
printf("AUD_CONV_CHCNT HDMI channel count\t%lu\n", BITS(dword, 11, 8) + 1);
printf("AUD_CONV_CHCNT HDMI channel mapping:\n");
for (i = 0; i < 8; i++) {
OUTREG(AUD_CONV_CHCNT, i);
dword = INREG(AUD_CONV_CHCNT);
printf("\t\t\t\t\t[0x%x] %u => %lu\n", dword, i, BITS(dword, 7, 4));
}
printf("AUD_HDMIW_HDMIEDID HDMI ELD:\n\t");
dword = INREG(AUD_CNTL_ST);
dword &= ~BITMASK(8, 5);
OUTREG(AUD_CNTL_ST, dword);
for (i = 0; i < BITS(dword, 14, 10) / 4; i++)
printf("%08x ", htonl(INREG(AUD_HDMIW_HDMIEDID)));
printf("\n");
printf("AUD_HDMIW_INFOFR HDMI audio Infoframe:\n\t");
dword = INREG(AUD_CNTL_ST);
dword &= ~BITMASK(20, 18);
dword &= ~BITMASK(3, 0);
OUTREG(AUD_CNTL_ST, dword);
for (i = 0; i < 8; i++)
printf("%08x ", htonl(INREG(AUD_HDMIW_INFOFR)));
printf("\n");
}
#undef AUD_RID
#undef AUD_VID_DID
#undef AUD_PWRST
#undef AUD_OUT_CH_STR
#undef AUD_HDMIW_STATUS
/*
* CougarPoint registers
*/
#define DP_CTL_B 0xE4100
#define DP_CTL_C 0xE4200
#define DP_AUX_CTL_C 0xE4210
#define DP_AUX_TST_C 0xE4228
#define SPORT_DDI_CRC_C 0xE4250
#define SPORT_DDI_CRC_R 0xE4264
#define DP_CTL_D 0xE4300
#define DP_AUX_CTL_D 0xE4310
#define DP_AUX_TST_D 0xE4328
#define SPORT_DDI_CRC_CTL_D 0xE4350
#define AUD_CONFIG_A 0xE5000
#define AUD_MISC_CTRL_A 0xE5010
#define AUD_VID_DID 0xE5020
#define AUD_RID 0xE5024
#define AUD_CTS_ENABLE_A 0xE5028
#define AUD_PWRST 0xE504C
#define AUD_HDMIW_HDMIEDID_A 0xE5050
#define AUD_HDMIW_INFOFR_A 0xE5054
#define AUD_PORT_EN_HD_CFG 0xE507C
#define AUD_OUT_DIG_CNVT_A 0xE5080
#define AUD_OUT_STR_DESC_A 0xE5084
#define AUD_OUT_CH_STR 0xE5088
#define AUD_PINW_CONNLNG_LIST 0xE50A8
#define AUD_PINW_CONNLNG_SEL 0xE50AC
#define AUD_CNTL_ST_A 0xE50B4
#define AUD_CNTRL_ST2 0xE50C0
#define AUD_CNTRL_ST3 0xE50C4
#define AUD_HDMIW_STATUS 0xE50D4
#define AUD_CONFIG_B 0xE5100
#define AUD_MISC_CTRL_B 0xE5110
#define AUD_CTS_ENABLE_B 0xE5128
#define AUD_HDMIW_HDMIEDID_B 0xE5150
#define AUD_HDMIW_INFOFR_B 0xE5154
#define AUD_OUT_DIG_CNVT_B 0xE5180
#define AUD_OUT_STR_DESC_B 0xE5184
#define AUD_CNTL_ST_B 0xE51B4
#define AUD_CONFIG_C 0xE5200
#define AUD_MISC_CTRL_C 0xE5210
#define AUD_CTS_ENABLE_C 0xE5228
#define AUD_HDMIW_HDMIEDID_C 0xE5250
#define AUD_HDMIW_INFOFR_C 0xE5254
#define AUD_OUT_DIG_CNVT_C 0xE5280
#define AUD_OUT_STR_DESC_C 0xE5284
#define AUD_CNTL_ST_C 0xE52B4
#define AUD_CONFIG_D 0xE5300
#define AUD_MISC_CTRL_D 0xE5310
#define AUD_CTS_ENABLE_D 0xE5328
#define AUD_HDMIW_HDMIEDID_D 0xE5350
#define AUD_HDMIW_INFOFR_D 0xE5354
#define AUD_OUT_DIG_CNVT_D 0xE5380
#define AUD_OUT_STR_DESC_D 0xE5384
#define AUD_CNTL_ST_D 0xE53B4
#define VIDEO_DIP_CTL_A 0xE0200
#define VIDEO_DIP_CTL_B 0xE1200
#define VIDEO_DIP_CTL_C 0xE2200
#define VIDEO_DIP_CTL_D 0xE3200
static void dump_cpt(void)
{
uint32_t dword;
int i;
dump_reg(HDMIB, "sDVO/HDMI Port B Control");
dump_reg(HDMIC, "HDMI Port C Control");
dump_reg(HDMID, "HDMI Port D Control");
dump_reg(DP_CTL_B, "DisplayPort B Control");
dump_reg(DP_CTL_C, "DisplayPort C Control");
dump_reg(DP_CTL_D, "DisplayPort D Control");
dump_reg(TRANS_DP_CTL_A, "Transcoder A DisplayPort Control");
dump_reg(TRANS_DP_CTL_B, "Transcoder B DisplayPort Control");
dump_reg(TRANS_DP_CTL_C, "Transcoder C DisplayPort Control");
dump_reg(AUD_CONFIG_A, "Audio Configuration - Transcoder A");
dump_reg(AUD_CONFIG_B, "Audio Configuration - Transcoder B");
dump_reg(AUD_CONFIG_C, "Audio Configuration - Transcoder C");
dump_reg(AUD_CTS_ENABLE_A, "Audio CTS Programming Enable - Transcoder A");
dump_reg(AUD_CTS_ENABLE_B, "Audio CTS Programming Enable - Transcoder B");
dump_reg(AUD_CTS_ENABLE_C, "Audio CTS Programming Enable - Transcoder C");
dump_reg(AUD_MISC_CTRL_A, "Audio MISC Control for Transcoder A");
dump_reg(AUD_MISC_CTRL_B, "Audio MISC Control for Transcoder B");
dump_reg(AUD_MISC_CTRL_C, "Audio MISC Control for Transcoder C");
dump_reg(AUD_VID_DID, "Audio Vendor ID / Device ID");
dump_reg(AUD_RID, "Audio Revision ID");
dump_reg(AUD_PWRST, "Audio Power State (Function Group, Convertor, Pin Widget)");
dump_reg(AUD_PORT_EN_HD_CFG, "Audio Port Enable HDAudio Config");
dump_reg(AUD_OUT_DIG_CNVT_A, "Audio Digital Converter - Conv A");
dump_reg(AUD_OUT_DIG_CNVT_B, "Audio Digital Converter - Conv B");
dump_reg(AUD_OUT_DIG_CNVT_C, "Audio Digital Converter - Conv C");
dump_reg(AUD_OUT_CH_STR, "Audio Channel ID and Stream ID");
dump_reg(AUD_OUT_STR_DESC_A, "Audio Stream Descriptor Format - Conv A");
dump_reg(AUD_OUT_STR_DESC_B, "Audio Stream Descriptor Format - Conv B");
dump_reg(AUD_OUT_STR_DESC_C, "Audio Stream Descriptor Format - Conv C");
dump_reg(AUD_PINW_CONNLNG_LIST, "Audio Connection List");
dump_reg(AUD_PINW_CONNLNG_SEL, "Audio Connection Select");
dump_reg(AUD_CNTL_ST_A, "Audio Control State Register - Transcoder A");
dump_reg(AUD_CNTL_ST_B, "Audio Control State Register - Transcoder B");
dump_reg(AUD_CNTL_ST_C, "Audio Control State Register - Transcoder C");
dump_reg(AUD_CNTRL_ST2, "Audio Control State 2");
dump_reg(AUD_CNTRL_ST3, "Audio Control State 3");
dump_reg(AUD_HDMIW_STATUS, "Audio HDMI Status");
dump_reg(AUD_HDMIW_HDMIEDID_A, "HDMI Data EDID Block - Transcoder A");
dump_reg(AUD_HDMIW_HDMIEDID_B, "HDMI Data EDID Block - Transcoder B");
dump_reg(AUD_HDMIW_HDMIEDID_C, "HDMI Data EDID Block - Transcoder C");
dump_reg(AUD_HDMIW_INFOFR_A, "Audio Widget Data Island Packet - Transcoder A");
dump_reg(AUD_HDMIW_INFOFR_B, "Audio Widget Data Island Packet - Transcoder B");
dump_reg(AUD_HDMIW_INFOFR_C, "Audio Widget Data Island Packet - Transcoder C");
printf("\nDetails:\n\n");
dword = INREG(VIDEO_DIP_CTL_A);
printf("VIDEO_DIP_CTL_A Enable_Graphics_DIP\t\t\t%ld\n", BIT(dword, 31)),
printf("VIDEO_DIP_CTL_A GCP_DIP_enable\t\t\t\t%ld\n", BIT(dword, 25)),
printf("VIDEO_DIP_CTL_A Video_DIP_type_enable AVI\t\t%lu\n", BIT(dword, 21));
printf("VIDEO_DIP_CTL_A Video_DIP_type_enable Vendor\t\t%lu\n", BIT(dword, 22));
printf("VIDEO_DIP_CTL_A Video_DIP_type_enable Gamut\t\t%lu\n", BIT(dword, 23));
printf("VIDEO_DIP_CTL_A Video_DIP_type_enable Source \t\t%lu\n", BIT(dword, 24));
printf("VIDEO_DIP_CTL_A Video_DIP_buffer_index\t\t\t[0x%lx] %s\n",
BITS(dword, 20, 19), video_dip_index[BITS(dword, 20, 19)]);
printf("VIDEO_DIP_CTL_A Video_DIP_frequency\t\t\t[0x%lx] %s\n",
BITS(dword, 17, 16), video_dip_trans[BITS(dword, 17, 16)]);
printf("VIDEO_DIP_CTL_A Video_DIP_buffer_size\t\t\t%lu\n", BITS(dword, 11, 8));
printf("VIDEO_DIP_CTL_A Video_DIP_access_address\t\t%lu\n", BITS(dword, 3, 0));
dword = INREG(VIDEO_DIP_CTL_B);
printf("VIDEO_DIP_CTL_B Enable_Graphics_DIP\t\t\t%ld\n", BIT(dword, 31)),
printf("VIDEO_DIP_CTL_B GCP_DIP_enable\t\t\t\t%ld\n", BIT(dword, 25)),
printf("VIDEO_DIP_CTL_B Video_DIP_type_enable AVI\t\t%lu\n", BIT(dword, 21));
printf("VIDEO_DIP_CTL_B Video_DIP_type_enable Vendor\t\t%lu\n", BIT(dword, 22));
printf("VIDEO_DIP_CTL_B Video_DIP_type_enable Gamut\t\t%lu\n", BIT(dword, 23));
printf("VIDEO_DIP_CTL_B Video_DIP_type_enable Source \t\t%lu\n", BIT(dword, 24));
printf("VIDEO_DIP_CTL_B Video_DIP_buffer_index\t\t\t[0x%lx] %s\n",
BITS(dword, 20, 19), video_dip_index[BITS(dword, 20, 19)]);
printf("VIDEO_DIP_CTL_B Video_DIP_frequency\t\t\t[0x%lx] %s\n",
BITS(dword, 17, 16), video_dip_trans[BITS(dword, 17, 16)]);
printf("VIDEO_DIP_CTL_B Video_DIP_buffer_size\t\t\t%lu\n", BITS(dword, 11, 8));
printf("VIDEO_DIP_CTL_B Video_DIP_access_address\t\t%lu\n", BITS(dword, 3, 0));
dword = INREG(VIDEO_DIP_CTL_C);
printf("VIDEO_DIP_CTL_C Enable_Graphics_DIP\t\t\t%ld\n", BIT(dword, 31)),
printf("VIDEO_DIP_CTL_C GCP_DIP_enable\t\t\t\t%ld\n", BIT(dword, 25)),
printf("VIDEO_DIP_CTL_C Video_DIP_type_enable AVI\t\t%lu\n", BIT(dword, 21));
printf("VIDEO_DIP_CTL_C Video_DIP_type_enable Vendor\t\t%lu\n", BIT(dword, 22));
printf("VIDEO_DIP_CTL_C Video_DIP_type_enable Gamut\t\t%lu\n", BIT(dword, 23));
printf("VIDEO_DIP_CTL_C Video_DIP_type_enable Source \t\t%lu\n", BIT(dword, 24));
printf("VIDEO_DIP_CTL_C Video_DIP_buffer_index\t\t\t[0x%lx] %s\n",
BITS(dword, 20, 19), video_dip_index[BITS(dword, 20, 19)]);
printf("VIDEO_DIP_CTL_C Video_DIP_frequency\t\t\t[0x%lx] %s\n",
BITS(dword, 17, 16), video_dip_trans[BITS(dword, 17, 16)]);
printf("VIDEO_DIP_CTL_C Video_DIP_buffer_size\t\t\t%lu\n", BITS(dword, 11, 8));
printf("VIDEO_DIP_CTL_C Video_DIP_access_address\t\t%lu\n", BITS(dword, 3, 0));
dword = INREG(AUD_VID_DID);
printf("AUD_VID_DID vendor id\t\t\t\t\t0x%x\n", dword >> 16);
printf("AUD_VID_DID device id\t\t\t\t\t0x%x\n", dword & 0xffff);
dword = INREG(AUD_RID);
printf("AUD_RID Major_Revision\t\t\t\t\t0x%lx\n", BITS(dword, 23, 20));
printf("AUD_RID Minor_Revision\t\t\t\t\t0x%lx\n", BITS(dword, 19, 16));
printf("AUD_RID Revision_Id\t\t\t\t\t0x%lx\n", BITS(dword, 15, 8));
printf("AUD_RID Stepping_Id\t\t\t\t\t0x%lx\n", BITS(dword, 7, 0));
dword = INREG(HDMIB);
printf("HDMIB Port_Enable\t\t\t\t\t%u\n", !!(dword & SDVO_ENABLE));
printf("HDMIB Transcoder_Select\t\t\t\t\t[0x%lx] %s\n",
BITS(dword, 30, 29), transcoder_select[BITS(dword, 30, 29)]);
printf("HDMIB sDVO_Border_Enable\t\t\t\t%lu\n", BIT(dword, 7));
printf("HDMIB HDCP_Port_Select\t\t\t\t\t%lu\n", BIT(dword, 5));
printf("HDMIB SDVO_HPD_Interrupt_Enable\t\t\t\t%lu\n", BIT(dword, 23));
printf("HDMIB Port_Detected\t\t\t\t\t%lu\n", BIT(dword, 2));
printf("HDMIB Encoding\t\t\t\t\t\t[0x%lx] %s\n",
BITS(dword, 11, 10), sdvo_hdmi_encoding[BITS(dword, 11, 10)]);
printf("HDMIB HDMI_or_DVI_Select\t\t\t\t%s\n", BIT(dword, 9) ? "HDMI" : "DVI");
printf("HDMIB Audio_Output_Enable\t\t\t\t%u\n", !!(dword & SDVO_AUDIO_ENABLE));
dword = INREG(HDMIC);
printf("HDMIC Port_Enable\t\t\t\t\t%u\n", !!(dword & SDVO_ENABLE));
printf("HDMIC Transcoder_Select\t\t\t\t\t[0x%lx] %s\n",
BITS(dword, 30, 29), transcoder_select[BITS(dword, 30, 29)]);
printf("HDMIC sDVO_Border_Enable\t\t\t\t%lu\n", BIT(dword, 7));
printf("HDMIC HDCP_Port_Select\t\t\t\t\t%lu\n", BIT(dword, 5));
printf("HDMIC SDVO_HPD_Interrupt_Enable\t\t\t\t%lu\n", BIT(dword, 23));
printf("HDMIC Port_Detected\t\t\t\t\t%lu\n", BIT(dword, 2));
printf("HDMIC Encoding\t\t\t\t\t\t[0x%lx] %s\n",
BITS(dword, 11, 10), sdvo_hdmi_encoding[BITS(dword, 11, 10)]);
printf("HDMIC HDMI_or_DVI_Select\t\t\t\t%s\n", BIT(dword, 9) ? "HDMI" : "DVI");
printf("HDMIC Audio_Output_Enable\t\t\t\t%u\n", !!(dword & SDVO_AUDIO_ENABLE));
dword = INREG(HDMID);
printf("HDMID Port_Enable\t\t\t\t\t%u\n", !!(dword & SDVO_ENABLE));
printf("HDMID Transcoder_Select\t\t\t\t\t[0x%lx] %s\n",
BITS(dword, 30, 29), transcoder_select[BITS(dword, 30, 29)]);
printf("HDMID sDVO_Border_Enable\t\t\t\t%lu\n", BIT(dword, 7));
printf("HDMID HDCP_Port_Select\t\t\t\t\t%lu\n", BIT(dword, 5));
printf("HDMID SDVO_HPD_Interrupt_Enable\t\t\t\t%lu\n", BIT(dword, 23));
printf("HDMID Port_Detected\t\t\t\t\t%lu\n", BIT(dword, 2));
printf("HDMID Encoding\t\t\t\t\t\t[0x%lx] %s\n",
BITS(dword, 11, 10), sdvo_hdmi_encoding[BITS(dword, 11, 10)]);
printf("HDMID HDMI_or_DVI_Select\t\t\t\t%s\n", BIT(dword, 9) ? "HDMI" : "DVI");
printf("HDMID Audio_Output_Enable\t\t\t\t%u\n", !!(dword & SDVO_AUDIO_ENABLE));
dword = INREG(DP_CTL_B);
printf("DP_CTL_B DisplayPort_Enable\t\t\t\t%lu\n", BIT(dword, 31));
printf("DP_CTL_B Port_Width_Selection\t\t\t\t[0x%lx] %s\n",
BITS(dword, 21, 19), dp_port_width[BITS(dword, 21, 19)]);
printf("DP_CTL_B Port_Detected\t\t\t\t\t%lu\n", BIT(dword, 2));
printf("DP_CTL_B HDCP_Port_Select\t\t\t\t%lu\n", BIT(dword, 5));
printf("DP_CTL_B Audio_Output_Enable\t\t\t\t%lu\n", BIT(dword, 6));
dword = INREG(DP_CTL_C);
printf("DP_CTL_C DisplayPort_Enable\t\t\t\t%lu\n", BIT(dword, 31));
printf("DP_CTL_C Port_Width_Selection\t\t\t\t[0x%lx] %s\n",
BITS(dword, 21, 19), dp_port_width[BITS(dword, 21, 19)]);
printf("DP_CTL_C Port_Detected\t\t\t\t\t%lu\n", BIT(dword, 2));
printf("DP_CTL_C HDCP_Port_Select\t\t\t\t%lu\n", BIT(dword, 5));
printf("DP_CTL_C Audio_Output_Enable\t\t\t\t%lu\n", BIT(dword, 6));
dword = INREG(DP_CTL_D);
printf("DP_CTL_D DisplayPort_Enable\t\t\t\t%lu\n", BIT(dword, 31));
printf("DP_CTL_D Port_Width_Selection\t\t\t\t[0x%lx] %s\n",
BITS(dword, 21, 19), dp_port_width[BITS(dword, 21, 19)]);
printf("DP_CTL_D Port_Detected\t\t\t\t\t%lu\n", BIT(dword, 2));
printf("DP_CTL_D HDCP_Port_Select\t\t\t\t%lu\n", BIT(dword, 5));
printf("DP_CTL_D Audio_Output_Enable\t\t\t\t%lu\n", BIT(dword, 6));
dword = INREG(AUD_CONFIG_A);
printf("AUD_CONFIG_A N_index_value\t\t\t\t[0x%lx] %s\n", BIT(dword, 29),
n_index_value[BIT(dword, 29)]);
printf("AUD_CONFIG_A N_programming_enable\t\t\t%lu\n", BIT(dword, 28));
printf("AUD_CONFIG_A Upper_N_value\t\t\t\t0x%02lx\n", BITS(dword, 27, 20));
printf("AUD_CONFIG_A Lower_N_value\t\t\t\t0x%03lx\n", BITS(dword, 15, 4));
printf("AUD_CONFIG_A Pixel_Clock_HDMI\t\t\t\t[0x%lx] %s\n", BITS(dword, 19, 16),
OPNAME(pixel_clock, BITS(dword, 19, 16)));
printf("AUD_CONFIG_A Disable_NCTS\t\t\t\t%lu\n", BIT(dword, 3));
dword = INREG(AUD_CONFIG_B);
printf("AUD_CONFIG_B N_index_value\t\t\t\t[0x%lx] %s\n", BIT(dword, 29),
n_index_value[BIT(dword, 29)]);
printf("AUD_CONFIG_B N_programming_enable\t\t\t%lu\n", BIT(dword, 28));
printf("AUD_CONFIG_B Upper_N_value\t\t\t\t0x%02lx\n", BITS(dword, 27, 20));
printf("AUD_CONFIG_B Lower_N_value\t\t\t\t0x%03lx\n", BITS(dword, 15, 4));
printf("AUD_CONFIG_B Pixel_Clock_HDMI\t\t\t\t[0x%lx] %s\n", BITS(dword, 19, 16),
OPNAME(pixel_clock, BITS(dword, 19, 16)));
printf("AUD_CONFIG_B Disable_NCTS\t\t\t\t%lu\n", BIT(dword, 3));
dword = INREG(AUD_CONFIG_C);
printf("AUD_CONFIG_C N_index_value\t\t\t\t[0x%lx] %s\n", BIT(dword, 29),
n_index_value[BIT(dword, 29)]);
printf("AUD_CONFIG_C N_programming_enable\t\t\t%lu\n", BIT(dword, 28));
printf("AUD_CONFIG_C Upper_N_value\t\t\t\t0x%02lx\n", BITS(dword, 27, 20));
printf("AUD_CONFIG_C Lower_N_value\t\t\t\t0x%03lx\n", BITS(dword, 15, 4));
printf("AUD_CONFIG_C Pixel_Clock_HDMI\t\t\t\t[0x%lx] %s\n", BITS(dword, 19, 16),
OPNAME(pixel_clock, BITS(dword, 19, 16)));
printf("AUD_CONFIG_C Disable_NCTS\t\t\t\t%lu\n", BIT(dword, 3));
dword = INREG(AUD_CTS_ENABLE_A);
printf("AUD_CTS_ENABLE_A Enable_CTS_or_M_programming\t\t%lu\n", BIT(dword, 20));
printf("AUD_CTS_ENABLE_A CTS_M value Index\t\t\t%s\n", BIT(dword, 21) ? "CTS" : "M");
printf("AUD_CTS_ENABLE_A CTS_programming\t\t\t%#lx\n", BITS(dword, 19, 0));
dword = INREG(AUD_CTS_ENABLE_B);
printf("AUD_CTS_ENABLE_B Enable_CTS_or_M_programming\t\t%lu\n", BIT(dword, 20));
printf("AUD_CTS_ENABLE_B CTS_M value Index\t\t\t%s\n", BIT(dword, 21) ? "CTS" : "M");
printf("AUD_CTS_ENABLE_B CTS_programming\t\t\t%#lx\n", BITS(dword, 19, 0));
dword = INREG(AUD_CTS_ENABLE_C);
printf("AUD_CTS_ENABLE_C Enable_CTS_or_M_programming\t\t%lu\n", BIT(dword, 20));
printf("AUD_CTS_ENABLE_C CTS_M value Index\t\t\t%s\n", BIT(dword, 21) ? "CTS" : "M");
printf("AUD_CTS_ENABLE_C CTS_programming\t\t\t%#lx\n", BITS(dword, 19, 0));
dword = INREG(AUD_MISC_CTRL_A);
printf("AUD_MISC_CTRL_A Sample_Fabrication_EN_bit\t\t%lu\n", BIT(dword, 2));
printf("AUD_MISC_CTRL_A Sample_present_Disable\t\t\t%lu\n", BIT(dword, 8));
printf("AUD_MISC_CTRL_A Output_Delay\t\t\t\t%lu\n", BITS(dword, 7, 4));
printf("AUD_MISC_CTRL_A Pro_Allowed\t\t\t\t%lu\n", BIT(dword, 1));
dword = INREG(AUD_MISC_CTRL_B);
printf("AUD_MISC_CTRL_B Sample_Fabrication_EN_bit\t\t%lu\n", BIT(dword, 2));
printf("AUD_MISC_CTRL_B Sample_present_Disable\t\t\t%lu\n", BIT(dword, 8));
printf("AUD_MISC_CTRL_B Output_Delay\t\t\t\t%lu\n", BITS(dword, 7, 4));
printf("AUD_MISC_CTRL_B Pro_Allowed\t\t\t\t%lu\n", BIT(dword, 1));
dword = INREG(AUD_MISC_CTRL_C);
printf("AUD_MISC_CTRL_C Sample_Fabrication_EN_bit\t\t%lu\n", BIT(dword, 2));
printf("AUD_MISC_CTRL_C Sample_present_Disable\t\t\t%lu\n", BIT(dword, 8));
printf("AUD_MISC_CTRL_C Output_Delay\t\t\t\t%lu\n", BITS(dword, 7, 4));
printf("AUD_MISC_CTRL_C Pro_Allowed\t\t\t\t%lu\n", BIT(dword, 1));
dword = INREG(AUD_PWRST);
printf("AUD_PWRST Func_Grp_Dev_PwrSt_Curr \t%s\n", power_state[BITS(dword, 27, 26)]);
printf("AUD_PWRST Func_Grp_Dev_PwrSt_Set \t%s\n", power_state[BITS(dword, 25, 24)]);
printf("AUD_PWRST ConvertorA_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 15, 14)]);
printf("AUD_PWRST ConvertorA_Widget_Power_State_Requsted \t%s\n", power_state[BITS(dword, 13, 12)]);
printf("AUD_PWRST ConvertorB_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 19, 18)]);
printf("AUD_PWRST ConvertorB_Widget_Power_State_Requested \t%s\n", power_state[BITS(dword, 17, 16)]);
printf("AUD_PWRST ConvC_Widget_PwrSt_Curr \t%s\n", power_state[BITS(dword, 23, 22)]);
printf("AUD_PWRST ConvC_Widget_PwrSt_Req \t%s\n", power_state[BITS(dword, 21, 20)]);
printf("AUD_PWRST PinB_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 3, 2)]);
printf("AUD_PWRST PinB_Widget_Power_State_Set \t%s\n", power_state[BITS(dword, 1, 0)]);
printf("AUD_PWRST PinC_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 7, 6)]);
printf("AUD_PWRST PinC_Widget_Power_State_Set \t%s\n", power_state[BITS(dword, 5, 4)]);
printf("AUD_PWRST PinD_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 11, 10)]);
printf("AUD_PWRST PinD_Widget_Power_State_Set \t%s\n", power_state[BITS(dword, 9, 8)]);
dword = INREG(AUD_PORT_EN_HD_CFG);
printf("AUD_PORT_EN_HD_CFG Convertor_A_Digen\t\t\t%lu\n", BIT(dword, 0));
printf("AUD_PORT_EN_HD_CFG Convertor_B_Digen\t\t\t%lu\n", BIT(dword, 1));
printf("AUD_PORT_EN_HD_CFG Convertor_C_Digen\t\t\t%lu\n", BIT(dword, 2));
printf("AUD_PORT_EN_HD_CFG ConvertorA_Stream_ID\t\t%lu\n", BITS(dword, 7, 4));
printf("AUD_PORT_EN_HD_CFG ConvertorB_Stream_ID\t\t%lu\n", BITS(dword, 11, 8));
printf("AUD_PORT_EN_HD_CFG ConvertorC_Stream_ID\t\t%lu\n", BITS(dword, 15, 12));
printf("AUD_PORT_EN_HD_CFG Port_B_Out_Enable\t\t\t%lu\n", BIT(dword, 16));
printf("AUD_PORT_EN_HD_CFG Port_C_Out_Enable\t\t\t%lu\n", BIT(dword, 17));
printf("AUD_PORT_EN_HD_CFG Port_D_Out_Enable\t\t\t%lu\n", BIT(dword, 18));
printf("AUD_PORT_EN_HD_CFG Port_B_Amp_Mute_Status\t\t%lu\n", BIT(dword, 20));
printf("AUD_PORT_EN_HD_CFG Port_C_Amp_Mute_Status\t\t%lu\n", BIT(dword, 21));
printf("AUD_PORT_EN_HD_CFG Port_D_Amp_Mute_Status\t\t%lu\n", BIT(dword, 22));
dword = INREG(AUD_OUT_DIG_CNVT_A);
printf("AUD_OUT_DIG_CNVT_A V\t\t\t\t\t%lu\n", BIT(dword, 1));
printf("AUD_OUT_DIG_CNVT_A VCFG\t\t\t\t%lu\n", BIT(dword, 2));
printf("AUD_OUT_DIG_CNVT_A PRE\t\t\t\t\t%lu\n", BIT(dword, 3));
printf("AUD_OUT_DIG_CNVT_A Copy\t\t\t\t%lu\n", BIT(dword, 4));
printf("AUD_OUT_DIG_CNVT_A NonAudio\t\t\t\t%lu\n", BIT(dword, 5));
printf("AUD_OUT_DIG_CNVT_A PRO\t\t\t\t\t%lu\n", BIT(dword, 6));
printf("AUD_OUT_DIG_CNVT_A Level\t\t\t\t%lu\n", BIT(dword, 7));
printf("AUD_OUT_DIG_CNVT_A Category_Code\t\t\t%lu\n", BITS(dword, 14, 8));
printf("AUD_OUT_DIG_CNVT_A Lowest_Channel_Number\t\t%lu\n", BITS(dword, 19, 16));
printf("AUD_OUT_DIG_CNVT_A Stream_ID\t\t\t\t%lu\n", BITS(dword, 23, 20));
dword = INREG(AUD_OUT_DIG_CNVT_B);
printf("AUD_OUT_DIG_CNVT_B V\t\t\t\t\t%lu\n", BIT(dword, 1));
printf("AUD_OUT_DIG_CNVT_B VCFG\t\t\t\t%lu\n", BIT(dword, 2));
printf("AUD_OUT_DIG_CNVT_B PRE\t\t\t\t\t%lu\n", BIT(dword, 3));
printf("AUD_OUT_DIG_CNVT_B Copy\t\t\t\t%lu\n", BIT(dword, 4));
printf("AUD_OUT_DIG_CNVT_B NonAudio\t\t\t\t%lu\n", BIT(dword, 5));
printf("AUD_OUT_DIG_CNVT_B PRO\t\t\t\t\t%lu\n", BIT(dword, 6));
printf("AUD_OUT_DIG_CNVT_B Level\t\t\t\t%lu\n", BIT(dword, 7));
printf("AUD_OUT_DIG_CNVT_B Category_Code\t\t\t%lu\n", BITS(dword, 14, 8));
printf("AUD_OUT_DIG_CNVT_B Lowest_Channel_Number\t\t%lu\n", BITS(dword, 19, 16));
printf("AUD_OUT_DIG_CNVT_B Stream_ID\t\t\t\t%lu\n", BITS(dword, 23, 20));
dword = INREG(AUD_OUT_DIG_CNVT_C);
printf("AUD_OUT_DIG_CNVT_C V\t\t\t\t\t%lu\n", BIT(dword, 1));
printf("AUD_OUT_DIG_CNVT_C VCFG\t\t\t\t%lu\n", BIT(dword, 2));
printf("AUD_OUT_DIG_CNVT_C PRE\t\t\t\t\t%lu\n", BIT(dword, 3));
printf("AUD_OUT_DIG_CNVT_C Copy\t\t\t\t%lu\n", BIT(dword, 4));
printf("AUD_OUT_DIG_CNVT_C NonAudio\t\t\t\t%lu\n", BIT(dword, 5));
printf("AUD_OUT_DIG_CNVT_C PRO\t\t\t\t\t%lu\n", BIT(dword, 6));
printf("AUD_OUT_DIG_CNVT_C Level\t\t\t\t%lu\n", BIT(dword, 7));
printf("AUD_OUT_DIG_CNVT_C Category_Code\t\t\t%lu\n", BITS(dword, 14, 8));
printf("AUD_OUT_DIG_CNVT_C Lowest_Channel_Number\t\t%lu\n", BITS(dword, 19, 16));
printf("AUD_OUT_DIG_CNVT_C Stream_ID\t\t\t\t%lu\n", BITS(dword, 23, 20));
printf("AUD_OUT_CH_STR Converter_Channel_MAP PORTB PORTC PORTD\n");
for (i = 0; i < 8; i++) {
OUTREG(AUD_OUT_CH_STR, i | (i << 8) | (i << 16));
dword = INREG(AUD_OUT_CH_STR);
printf("\t\t\t\t%lu\t%lu\t%lu\t%lu\n",
1 + BITS(dword, 3, 0),
1 + BITS(dword, 7, 4),
1 + BITS(dword, 15, 12),
1 + BITS(dword, 23, 20));
}
dword = INREG(AUD_OUT_STR_DESC_A);
printf("AUD_OUT_STR_DESC_A HBR_enable\t\t\t\t%lu\n", BITS(dword, 28, 27));
printf("AUD_OUT_STR_DESC_A Convertor_Channel_Count\t\t%lu\n", BITS(dword, 20, 16) + 1);
printf("AUD_OUT_STR_DESC_A Bits_per_Sample\t\t\t[%#lx] %s\n",
BITS(dword, 6, 4), OPNAME(bits_per_sample, BITS(dword, 6, 4)));
printf("AUD_OUT_STR_DESC_A Number_of_Channels_in_a_Stream\t%lu\n", 1 + BITS(dword, 3, 0));
dword = INREG(AUD_OUT_STR_DESC_B);
printf("AUD_OUT_STR_DESC_B HBR_enable\t\t\t\t%lu\n", BITS(dword, 28, 27));
printf("AUD_OUT_STR_DESC_B Convertor_Channel_Count\t\t%lu\n", BITS(dword, 20, 16) + 1);
printf("AUD_OUT_STR_DESC_B Bits_per_Sample\t\t\t[%#lx] %s\n",
BITS(dword, 6, 4), OPNAME(bits_per_sample, BITS(dword, 6, 4)));
printf("AUD_OUT_STR_DESC_B Number_of_Channels_in_a_Stream\t%lu\n", 1 + BITS(dword, 3, 0));
dword = INREG(AUD_OUT_STR_DESC_C);
printf("AUD_OUT_STR_DESC_C HBR_enable\t\t\t\t%lu\n", BITS(dword, 28, 27));
printf("AUD_OUT_STR_DESC_C Convertor_Channel_Count\t\t%lu\n", BITS(dword, 20, 16) + 1);
printf("AUD_OUT_STR_DESC_C Bits_per_Sample\t\t\t[%#lx] %s\n",
BITS(dword, 6, 4), OPNAME(bits_per_sample, BITS(dword, 6, 4)));
printf("AUD_OUT_STR_DESC_C Number_of_Channels_in_a_Stream\t%lu\n", 1 + BITS(dword, 3, 0));
dword = INREG(AUD_PINW_CONNLNG_SEL);
printf("AUD_PINW_CONNLNG_SEL Connection_select_Control_B\t%#lx\n", BITS(dword, 7, 0));
printf("AUD_PINW_CONNLNG_SEL Connection_select_Control_C\t%#lx\n", BITS(dword, 15, 8));
printf("AUD_PINW_CONNLNG_SEL Connection_select_Control_D\t%#lx\n", BITS(dword, 23, 16));
dword = INREG(AUD_CNTL_ST_A);
printf("AUD_CNTL_ST_A DIP_Port_Select\t\t\t\t[%#lx] %s\n",
BITS(dword, 30, 29), dip_port[BITS(dword, 30, 29)]);
printf("AUD_CNTL_ST_A DIP_type_enable_status Audio DIP\t\t%lu\n", BIT(dword, 21));
printf("AUD_CNTL_ST_A DIP_type_enable_status ACP DIP\t\t%lu\n", BIT(dword, 22));
printf("AUD_CNTL_ST_A DIP_type_enable_status Generic 2 DIP\t%lu\n", BIT(dword, 23));
printf("AUD_CNTL_ST_A DIP_transmission_frequency\t\t[0x%lx] %s\n",
BITS(dword, 17, 16), dip_trans[BITS(dword, 17, 16)]);
printf("AUD_CNTL_ST_A ELD_ACK\t\t\t\t\t%lu\n", BIT(dword, 4));
printf("AUD_CNTL_ST_A ELD_buffer_size\t\t\t\t%lu\n", BITS(dword, 14, 10));
dword = INREG(AUD_CNTL_ST_B);
printf("AUD_CNTL_ST_B DIP_Port_Select\t\t\t\t[%#lx] %s\n",
BITS(dword, 30, 29), dip_port[BITS(dword, 30, 29)]);
printf("AUD_CNTL_ST_B DIP_type_enable_status Audio DIP\t\t%lu\n", BIT(dword, 21));
printf("AUD_CNTL_ST_B DIP_type_enable_status ACP DIP\t\t%lu\n", BIT(dword, 22));
printf("AUD_CNTL_ST_B DIP_type_enable_status Generic 2 DIP\t%lu\n", BIT(dword, 23));
printf("AUD_CNTL_ST_B DIP_transmission_frequency\t\t[0x%lx] %s\n",
BITS(dword, 17, 16), dip_trans[BITS(dword, 17, 16)]);
printf("AUD_CNTL_ST_B ELD_ACK\t\t\t\t\t%lu\n", BIT(dword, 4));
printf("AUD_CNTL_ST_B ELD_buffer_size\t\t\t\t%lu\n", BITS(dword, 14, 10));
dword = INREG(AUD_CNTL_ST_C);
printf("AUD_CNTL_ST_C DIP_Port_Select\t\t\t\t[%#lx] %s\n",
BITS(dword, 30, 29), dip_port[BITS(dword, 30, 29)]);
printf("AUD_CNTL_ST_C DIP_type_enable_status Audio DIP\t\t%lu\n", BIT(dword, 21));
printf("AUD_CNTL_ST_C DIP_type_enable_status ACP DIP\t\t%lu\n", BIT(dword, 22));
printf("AUD_CNTL_ST_C DIP_type_enable_status Generic 2 DIP\t%lu\n", BIT(dword, 23));
printf("AUD_CNTL_ST_C DIP_transmission_frequency\t\t[0x%lx] %s\n",
BITS(dword, 17, 16), dip_trans[BITS(dword, 17, 16)]);
printf("AUD_CNTL_ST_C ELD_ACK\t\t\t\t\t%lu\n", BIT(dword, 4));
printf("AUD_CNTL_ST_C ELD_buffer_size\t\t\t\t%lu\n", BITS(dword, 14, 10));
dword = INREG(AUD_CNTRL_ST2);
printf("AUD_CNTRL_ST2 CP_ReadyB\t\t\t\t%lu\n", BIT(dword, 1));
printf("AUD_CNTRL_ST2 ELD_validB\t\t\t\t%lu\n", BIT(dword, 0));
printf("AUD_CNTRL_ST2 CP_ReadyC\t\t\t\t%lu\n", BIT(dword, 5));
printf("AUD_CNTRL_ST2 ELD_validC\t\t\t\t%lu\n", BIT(dword, 4));
printf("AUD_CNTRL_ST2 CP_ReadyD\t\t\t\t%lu\n", BIT(dword, 9));
printf("AUD_CNTRL_ST2 ELD_validD\t\t\t\t%lu\n", BIT(dword, 8));
dword = INREG(AUD_CNTRL_ST3);
printf("AUD_CNTRL_ST3 TransA_DPT_Audio_Output_En\t\t%lu\n", BIT(dword, 3));
printf("AUD_CNTRL_ST3 TransA_to_Port_Sel\t\t\t[%#lx] %s\n",
BITS(dword, 2, 0), trans_to_port_sel[BITS(dword, 2, 0)]);
printf("AUD_CNTRL_ST3 TransB_DPT_Audio_Output_En\t\t%lu\n", BIT(dword, 7));
printf("AUD_CNTRL_ST3 TransB_to_Port_Sel\t\t\t[%#lx] %s\n",
BITS(dword, 6, 4), trans_to_port_sel[BITS(dword, 6, 4)]);
printf("AUD_CNTRL_ST3 TransC_DPT_Audio_Output_En\t\t%lu\n", BIT(dword, 11));
printf("AUD_CNTRL_ST3 TransC_to_Port_Sel\t\t\t[%#lx] %s\n",
BITS(dword, 10, 8), trans_to_port_sel[BITS(dword, 10, 8)]);
dword = INREG(AUD_HDMIW_STATUS);
printf("AUD_HDMIW_STATUS Conv_A_CDCLK/DOTCLK_FIFO_Underrun\t%lu\n", BIT(dword, 27));
printf("AUD_HDMIW_STATUS Conv_A_CDCLK/DOTCLK_FIFO_Overrun\t%lu\n", BIT(dword, 26));
printf("AUD_HDMIW_STATUS Conv_B_CDCLK/DOTCLK_FIFO_Underrun\t%lu\n", BIT(dword, 29));
printf("AUD_HDMIW_STATUS Conv_B_CDCLK/DOTCLK_FIFO_Overrun\t%lu\n", BIT(dword, 28));
printf("AUD_HDMIW_STATUS Conv_C_CDCLK/DOTCLK_FIFO_Underrun\t%lu\n", BIT(dword, 31));
printf("AUD_HDMIW_STATUS Conv_C_CDCLK/DOTCLK_FIFO_Overrun\t%lu\n", BIT(dword, 30));
printf("AUD_HDMIW_STATUS BCLK/CDCLK_FIFO_Overrun\t\t%lu\n", BIT(dword, 25));
printf("AUD_HDMIW_STATUS Function_Reset\t\t\t%lu\n", BIT(dword, 24));
printf("AUD_HDMIW_HDMIEDID_A HDMI ELD:\n\t");
dword = INREG(AUD_CNTL_ST_A);
dword &= ~BITMASK(9, 5);
OUTREG(AUD_CNTL_ST_A, dword);
for (i = 0; i < BITS(dword, 14, 10) / 4; i++)
printf("%08x ", htonl(INREG(AUD_HDMIW_HDMIEDID_A)));
printf("\n");
printf("AUD_HDMIW_HDMIEDID_B HDMI ELD:\n\t");
dword = INREG(AUD_CNTL_ST_B);
dword &= ~BITMASK(9, 5);
OUTREG(AUD_CNTL_ST_B, dword);
for (i = 0; i < BITS(dword, 14, 10) / 4; i++)
printf("%08x ", htonl(INREG(AUD_HDMIW_HDMIEDID_B)));
printf("\n");
printf("AUD_HDMIW_HDMIEDID_C HDMI ELD:\n\t");
dword = INREG(AUD_CNTL_ST_C);
dword &= ~BITMASK(9, 5);
OUTREG(AUD_CNTL_ST_C, dword);
for (i = 0; i < BITS(dword, 14, 10) / 4; i++)
printf("%08x ", htonl(INREG(AUD_HDMIW_HDMIEDID_C)));
printf("\n");
printf("AUD_HDMIW_INFOFR_A HDMI audio Infoframe:\n\t");
dword = INREG(AUD_CNTL_ST_A);
dword &= ~BITMASK(20, 18);
dword &= ~BITMASK(3, 0);
OUTREG(AUD_CNTL_ST_A, dword);
for (i = 0; i < 8; i++)
printf("%08x ", htonl(INREG(AUD_HDMIW_INFOFR_A)));
printf("\n");
printf("AUD_HDMIW_INFOFR_B HDMI audio Infoframe:\n\t");
dword = INREG(AUD_CNTL_ST_B);
dword &= ~BITMASK(20, 18);
dword &= ~BITMASK(3, 0);
OUTREG(AUD_CNTL_ST_B, dword);
for (i = 0; i < 8; i++)
printf("%08x ", htonl(INREG(AUD_HDMIW_INFOFR_B)));
printf("\n");
printf("AUD_HDMIW_INFOFR_C HDMI audio Infoframe:\n\t");
dword = INREG(AUD_CNTL_ST_C);
dword &= ~BITMASK(20, 18);
dword &= ~BITMASK(3, 0);
OUTREG(AUD_CNTL_ST_C, dword);
for (i = 0; i < 8; i++)
printf("%08x ", htonl(INREG(AUD_HDMIW_INFOFR_C)));
printf("\n");
}
/* Audio config registers of Ironlake */
#undef AUD_CONFIG_A
#undef AUD_CONFIG_B
#undef AUD_MISC_CTRL_A
#undef AUD_MISC_CTRL_B
#undef AUD_VID_DID
#undef AUD_RID
#undef AUD_CTS_ENABLE_A
#undef AUD_CTS_ENABLE_B
#undef AUD_PWRST
#undef AUD_HDMIW_HDMIEDID_A
#undef AUD_HDMIW_HDMIEDID_B
#undef AUD_HDMIW_INFOFR_A
#undef AUD_HDMIW_INFOFR_B
#undef AUD_PORT_EN_HD_CFG
#undef AUD_OUT_DIG_CNVT_A
#undef AUD_OUT_DIG_CNVT_B
#undef AUD_OUT_STR_DESC_A
#undef AUD_OUT_STR_DESC_B
#undef AUD_OUT_CH_STR
#undef AUD_PINW_CONNLNG_LIST
#undef AUD_PINW_CONNLNG_SEL
#undef AUD_CNTL_ST_A
#undef AUD_CNTL_ST_B
#undef AUD_CNTL_ST2
#undef AUD_HDMIW_STATUS
#define PIPE_OFS 0x100
#define AUD_CONFIG_A 0x0
#define AUD_CONFIG_B (AUD_CONFIG_A + PIPE_OFS)
#define AUD_MISC_CTRL_A 0x010
#define AUD_MISC_CTRL_B (AUD_MISC_CTRL_A + PIPE_OFS)
#define AUD_VID_DID 0x020
#define AUD_RID 0x024
#define AUD_CTS_ENABLE_A 0x028
#define AUD_CTS_ENABLE_B (AUD_CTS_ENABLE_A + PIPE_OFS)
#define AUD_PWRST 0x04C
#define AUD_HDMIW_HDMIEDID_A 0x050
#define AUD_HDMIW_HDMIEDID_B (AUD_HDMIW_HDMIEDID_A + PIPE_OFS)
#define AUD_HDMIW_INFOFR_A 0x054
#define AUD_HDMIW_INFOFR_B (AUD_HDMIW_INFOFR_A + PIPE_OFS)
#define AUD_PORT_EN_HD_CFG 0x07c
#define AUD_OUT_DIG_CNVT_A 0x080
#define AUD_OUT_DIG_CNVT_B (AUD_OUT_DIG_CNVT_A + PIPE_OFS)
#define AUD_OUT_STR_DESC_A 0x084
#define AUD_OUT_STR_DESC_B (AUD_OUT_STR_DESC_A + PIPE_OFS)
#define AUD_OUT_CH_STR 0x088
#define AUD_PINW_CONNLNG_LIST 0x0a8
#define AUD_PINW_CONNLNG_SEL 0x0aC
#define AUD_CNTL_ST_A 0x0b4
#define AUD_CNTL_ST_B (AUD_CNTL_ST_A + PIPE_OFS)
#define AUD_CNTL_ST2 0x0c0
#define AUD_HDMIW_STATUS 0x0d4
/* Audio config registers of Haswell+ */
#define AUD_TCA_CONFIG AUD_CONFIG_A
#define AUD_TCB_CONFIG (AUD_TCA_CONFIG + PIPE_OFS)
#define AUD_TCC_CONFIG (AUD_TCA_CONFIG + PIPE_OFS * 2)
#define AUD_C1_MISC_CTRL AUD_MISC_CTRL_A
#define AUD_C2_MISC_CTRL (AUD_MISC_CTRL_A + PIPE_OFS)
#define AUD_C3_MISC_CTRL (AUD_MISC_CTRL_A + PIPE_OFS * 2)
#define AUD_TCA_M_CTS_ENABLE AUD_CTS_ENABLE_A
#define AUD_TCB_M_CTS_ENABLE (AUD_TCA_M_CTS_ENABLE + PIPE_OFS)
#define AUD_TCC_M_CTS_ENABLE (AUD_TCA_M_CTS_ENABLE + PIPE_OFS * 2)
#define AUD_TCA_EDID_DATA AUD_HDMIW_HDMIEDID_A
#define AUD_TCB_EDID_DATA (AUD_TCA_EDID_DATA + PIPE_OFS)
#define AUD_TCC_EDID_DATA (AUD_TCA_EDID_DATA + PIPE_OFS * 2)
#define AUD_TCA_INFOFR AUD_HDMIW_INFOFR_A
#define AUD_TCB_INFOFR (AUD_TCA_INFOFR + PIPE_OFS)
#define AUD_TCC_INFOFR (AUD_TCA_INFOFR + PIPE_OFS * 2)
#define AUD_PIPE_CONV_CFG AUD_PORT_EN_HD_CFG
#define AUD_C1_DIG_CNVT AUD_OUT_DIG_CNVT_A
#define AUD_C2_DIG_CNVT (AUD_C1_DIG_CNVT + PIPE_OFS)
#define AUD_C3_DIG_CNVT (AUD_C1_DIG_CNVT + PIPE_OFS * 2)
#define AUD_C1_STR_DESC AUD_OUT_STR_DESC_A
#define AUD_C2_STR_DESC (AUD_C1_STR_DESC + PIPE_OFS)
#define AUD_C3_STR_DESC (AUD_C1_STR_DESC + PIPE_OFS * 2)
#define AUD_OUT_CHAN_MAP AUD_OUT_CH_STR
#define AUD_TCA_PIN_PIPE_CONN_ENTRY_LNGTH AUD_PINW_CONNLNG_LIST
#define AUD_TCB_PIN_PIPE_CONN_ENTRY_LNGTH (AUD_TCA_PIN_PIPE_CONN_ENTRY_LNGTH + PIPE_OFS)
#define AUD_TCC_PIN_PIPE_CONN_ENTRY_LNGTH (AUD_TCA_PIN_PIPE_CONN_ENTRY_LNGTH + PIPE_OFS * 2)
#define AUD_PIPE_CONN_SEL_CTRL AUD_PINW_CONNLNG_SEL
#define AUD_TCA_DIP_ELD_CTRL_ST AUD_CNTL_ST_A
#define AUD_TCB_DIP_ELD_CTRL_ST (AUD_TCA_DIP_ELD_CTRL_ST + PIPE_OFS)
#define AUD_TCC_DIP_ELD_CTRL_ST (AUD_TCA_DIP_ELD_CTRL_ST + PIPE_OFS * 2)
#define AUD_PIN_ELD_CP_VLD AUD_CNTL_ST2
#define AUD_HDMI_FIFO_STATUS AUD_HDMIW_STATUS
#define AUD_ICOI 0xf00
#define AUD_IRII 0xf04
#define AUD_ICS 0xf08
#define AUD_CHICKENBIT_REG 0xf10
#define AUD_DP_DIP_STATUS 0xf20
#define AUD_TCA_M_CTS 0xf44
#define AUD_TCB_M_CTS 0xf54
#define AUD_TCC_M_CTS 0xf64
/* Common functions to dump audio registers */
#define MAX_PREFIX_SIZE 128
static void dump_aud_config(int index)
{
uint32_t dword;
char prefix[MAX_PREFIX_SIZE];
if (!IS_HASWELL_PLUS(devid)) {
dword = INREG(aud_reg_base + AUD_CONFIG_A + (index - PIPE_A) * 0x100);
sprintf(prefix, "AUD_CONFIG_%c ", 'A' + index - PIPE_A);
} else {
dword = INREG(aud_reg_base + AUD_TCA_CONFIG + (index - TRANSCODER_A) * 0x100);
sprintf(prefix, "AUD_TC%c_CONFIG", 'A' + index - TRANSCODER_A);
}
printf("%s Disable_NCTS\t\t\t\t%lu\n", prefix, BIT(dword, 3));
printf("%s Lower_N_value\t\t\t\t0x%03lx\n", prefix, BITS(dword, 15, 4));
printf("%s Pixel_Clock_HDMI\t\t\t[0x%lx] %s\n", prefix, BITS(dword, 19, 16),
OPNAME(pixel_clock, BITS(dword, 19, 16)));
printf("%s Upper_N_value\t\t\t\t0x%02lx\n", prefix, BITS(dword, 27, 20));
printf("%s N_programming_enable\t\t\t%lu\n", prefix, BIT(dword, 28));
printf("%s N_index_value\t\t\t\t[0x%lx] %s\n", prefix, BIT(dword, 29),
OPNAME(n_index_value, BIT(dword, 29)));
}
static void dump_aud_misc_control(int index)
{
uint32_t dword;
char prefix[MAX_PREFIX_SIZE];
if (!IS_HASWELL_PLUS(devid)) {
dword = INREG(aud_reg_base + AUD_MISC_CTRL_A + (index - PIPE_A) * 0x100);
sprintf(prefix, "AUD_MISC_CTRL_%c ", 'A' + index - PIPE_A);
} else {
dword = INREG(aud_reg_base + AUD_C1_MISC_CTRL + (index - CONVERTER_1) * 0x100);
sprintf(prefix, "AUD_C%c_MISC_CTRL", '1' + index - CONVERTER_1);
}
printf("%s Pro_Allowed\t\t\t\t%lu\n", prefix, BIT(dword, 1));
printf("%s Sample_Fabrication_EN_bit\t\t%lu\n", prefix, BIT(dword, 2));
printf("%s Output_Delay\t\t\t\t%lu\n", prefix, BITS(dword, 7, 4));
printf("%s Sample_present_Disable\t\t%lu\n", prefix, BIT(dword, 8));
}
static void dump_aud_vendor_device_id(void)
{
uint32_t dword;
dword = INREG(aud_reg_base + AUD_VID_DID);
printf("AUD_VID_DID device id\t\t\t\t\t0x%lx\n", BITS(dword, 15, 0));
printf("AUD_VID_DID vendor id\t\t\t\t\t0x%lx\n", BITS(dword, 31, 16));
}
static void dump_aud_revision_id(void)
{
uint32_t dword;
dword = INREG(aud_reg_base + AUD_RID);
printf("AUD_RID Stepping_Id\t\t\t\t\t0x%lx\n", BITS(dword, 7, 0));
printf("AUD_RID Revision_Id\t\t\t\t\t0x%lx\n", BITS(dword, 15, 8));
printf("AUD_RID Minor_Revision\t\t\t\t\t0x%lx\n", BITS(dword, 19, 16));
printf("AUD_RID Major_Revision\t\t\t\t\t0x%lx\n", BITS(dword, 23, 20));
}
static void dump_aud_m_cts_enable(int index)
{
uint32_t dword;
char prefix[MAX_PREFIX_SIZE];
if (!IS_HASWELL_PLUS(devid)) {
dword = INREG(aud_reg_base + AUD_CTS_ENABLE_A + (index - PIPE_A) * 0x100);
sprintf(prefix, "AUD_CTS_ENABLE_%c ", 'A' + index - PIPE_A);
} else {
dword = INREG(aud_reg_base + AUD_TCA_M_CTS_ENABLE + (index - TRANSCODER_A) * 0x100);
sprintf(prefix, "AUD_TC%c_M_CTS_ENABLE", 'A' + index - TRANSCODER_A);
}
printf("%s CTS_programming\t\t\t%#lx\n", prefix, BITS(dword, 19, 0));
printf("%s Enable_CTS_or_M_programming\t%lu\n", prefix, BIT(dword, 20));
printf("%s CTS_M value Index\t\t\t[0x%lx] %s\n",prefix, BIT(dword, 21),
OPNAME(cts_m_value_index, BIT(dword, 21)));
}
static void dump_aud_power_state(void)
{
uint32_t dword;
int num_pipes;
dword = INREG(aud_reg_base + AUD_PWRST);
printf("AUD_PWRST PinB_Widget_Power_State_Set \t%s\n", power_state[BITS(dword, 1, 0)]);
printf("AUD_PWRST PinB_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 3, 2)]);
printf("AUD_PWRST PinC_Widget_Power_State_Set \t%s\n", power_state[BITS(dword, 5, 4)]);
printf("AUD_PWRST PinC_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 7, 6)]);
printf("AUD_PWRST PinD_Widget_Power_State_Set \t%s\n", power_state[BITS(dword, 9, 8)]);
printf("AUD_PWRST PinD_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 11, 10)]);
if (!IS_HASWELL_PLUS(devid)) {
printf("AUD_PWRST ConvertorA_Widget_Power_State_Requsted \t%s\n", power_state[BITS(dword, 13, 12)]);
printf("AUD_PWRST ConvertorA_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 15, 14)]);
printf("AUD_PWRST ConvertorB_Widget_Power_State_Requested \t%s\n", power_state[BITS(dword, 17, 16)]);
printf("AUD_PWRST ConvertorB_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 19, 18)]);
} else {
printf("AUD_PWRST Convertor1_Widget_Power_State_Requsted \t%s\n", power_state[BITS(dword, 13, 12)]);
printf("AUD_PWRST Convertor1_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 15, 14)]);
printf("AUD_PWRST Convertor2_Widget_Power_State_Requested \t%s\n", power_state[BITS(dword, 17, 16)]);
printf("AUD_PWRST Convertor2_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 19, 18)]);
}
num_pipes = get_num_pipes();
if (num_pipes == 2) {
printf("AUD_PWRST Func_Grp_Dev_PwrSt_Set \t%s\n", power_state[BITS(dword, 21, 20)]);
printf("AUD_PWRST Func_Grp_Dev_PwrSt_Curr \t%s\n", power_state[BITS(dword, 23, 22)]);
} else { /* 3 pipes */
if (!IS_HASWELL_PLUS(devid)) {
printf("AUD_PWRST ConvertorC_Widget_Power_State_Requested \t%s\n", power_state[BITS(dword, 21, 20)]);
printf("AUD_PWRST ConvertorC_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 23, 22)]);
} else {
printf("AUD_PWRST Convertor3_Widget_Power_State_Requested \t%s\n", power_state[BITS(dword, 21, 20)]);
printf("AUD_PWRST Convertor3_Widget_Power_State_Current \t%s\n", power_state[BITS(dword, 23, 22)]);
}
printf("AUD_PWRST Func_Grp_Dev_PwrSt_Set \t%s\n", power_state[BITS(dword, 25, 24)]);
printf("AUD_PWRST Func_Grp_Dev_PwrSt_Curr \t%s\n", power_state[BITS(dword, 27, 26)]);
}
}
static void dump_aud_edid_data(int index)
{
uint32_t dword;
int i;
int offset;
int aud_ctrl_st, edid_data;
if (IS_HASWELL_PLUS(devid)) {
offset = (index - TRANSCODER_A) * 0x100;
aud_ctrl_st = aud_reg_base + AUD_TCA_DIP_ELD_CTRL_ST + offset;
edid_data = aud_reg_base + AUD_TCA_EDID_DATA + offset;
printf("AUD_TC%c_EDID_DATA ELD:\n\t", 'A' + index - TRANSCODER_A);
} else {
offset = (index - PIPE_A) * 0x100;
aud_ctrl_st = aud_reg_base + AUD_CNTL_ST_A + offset;
edid_data = aud_reg_base + AUD_HDMIW_HDMIEDID_A + offset;
printf("AUD_HDMIW_HDMIEDID_%c HDMI ELD:\n\t", 'A' + index - PIPE_A);
}
dword = INREG(aud_ctrl_st);
dword &= ~BITMASK(9, 5);
OUTREG(aud_ctrl_st, dword);
for (i = 0; i < BITS(dword, 14, 10) / 4; i++)
printf("%08x ", htonl(INREG(edid_data)));
printf("\n");
}
static void dump_aud_infoframe(int index)
{
uint32_t dword;
int i;
int offset;
int aud_ctrl_st, info_frm;
if (IS_HASWELL_PLUS(devid)) {
offset = (index - TRANSCODER_A) * 0x100;
aud_ctrl_st = aud_reg_base + AUD_TCA_DIP_ELD_CTRL_ST + offset;
info_frm = aud_reg_base + AUD_TCA_INFOFR + offset;
printf("AUD_TC%c_INFOFR audio Infoframe:\n\t", 'A' + index - TRANSCODER_A);
} else {
offset = (index - PIPE_A) * 0x100;
aud_ctrl_st = aud_reg_base + AUD_CNTL_ST_A + offset;
info_frm = aud_reg_base + AUD_HDMIW_INFOFR_A + offset;
printf("AUD_HDMIW_INFOFR_%c HDMI audio Infoframe:\n\t", 'A' + index - PIPE_A);
}
dword = INREG(aud_ctrl_st);
dword &= ~BITMASK(20, 18);
dword &= ~BITMASK(3, 0);
OUTREG(aud_ctrl_st, dword);
for (i = 0; i < 8; i++)
printf("%08x ", htonl(INREG(info_frm)));
printf("\n");
}
static void dump_aud_port_en_hd_cfg(void)
{
uint32_t dword;
int num_pipes = get_num_pipes();
dword = INREG(aud_reg_base + AUD_PORT_EN_HD_CFG);
if (num_pipes == 2) {
printf("AUD_PORT_EN_HD_CFG Convertor_A_Digen\t\t\t%lu\n", BIT(dword, 0));
printf("AUD_PORT_EN_HD_CFG Convertor_B_Digen\t\t\t%lu\n", BIT(dword, 1));
printf("AUD_PORT_EN_HD_CFG Convertor_A_Stream_ID\t\t%lu\n", BITS(dword, 7, 4));
printf("AUD_PORT_EN_HD_CFG Convertor_B_Stream_ID\t\t%lu\n", BITS(dword, 11, 8));
printf("AUD_PORT_EN_HD_CFG Port_B_Out_Enable\t\t\t%lu\n", BIT(dword, 12));
printf("AUD_PORT_EN_HD_CFG Port_C_Out_Enable\t\t\t%lu\n", BIT(dword, 13));
printf("AUD_PORT_EN_HD_CFG Port_D_Out_Enable\t\t\t%lu\n", BIT(dword, 14));
printf("AUD_PORT_EN_HD_CFG Port_B_Amp_Mute_Status\t\t%lu\n", BIT(dword, 16));
printf("AUD_PORT_EN_HD_CFG Port_C_Amp_Mute_Status\t\t%lu\n", BIT(dword, 17));
printf("AUD_PORT_EN_HD_CFG Port_D_Amp_Mute_Status\t\t%lu\n", BIT(dword, 18));
} else { /* three pipes */
printf("AUD_PORT_EN_HD_CFG Convertor_A_Digen\t\t\t%lu\n", BIT(dword, 0));
printf("AUD_PORT_EN_HD_CFG Convertor_B_Digen\t\t\t%lu\n", BIT(dword, 1));
printf("AUD_PORT_EN_HD_CFG Convertor_C_Digen\t\t\t%lu\n", BIT(dword, 2));
printf("AUD_PORT_EN_HD_CFG Convertor_A_Stream_ID\t\t%lu\n", BITS(dword, 7, 4));
printf("AUD_PORT_EN_HD_CFG Convertor_B_Stream_ID\t\t%lu\n", BITS(dword, 11, 8));
printf("AUD_PORT_EN_HD_CFG Convertor_C_Stream_ID\t\t%lu\n", BITS(dword, 15, 12));
printf("AUD_PORT_EN_HD_CFG Port_B_Out_Enable\t\t\t%lu\n", BIT(dword, 16));
printf("AUD_PORT_EN_HD_CFG Port_C_Out_Enable\t\t\t%lu\n", BIT(dword, 17));
printf("AUD_PORT_EN_HD_CFG Port_D_Out_Enable\t\t\t%lu\n", BIT(dword, 18));
printf("AUD_PORT_EN_HD_CFG Port_B_Amp_Mute_Status\t\t%lu\n", BIT(dword, 20));
printf("AUD_PORT_EN_HD_CFG Port_C_Amp_Mute_Status\t\t%lu\n", BIT(dword, 21));
printf("AUD_PORT_EN_HD_CFG Port_D_Amp_Mute_Status\t\t%lu\n", BIT(dword, 22));
}
}
static void dump_aud_pipe_conv_cfg(void)
{
uint32_t dword;
dword = INREG(aud_reg_base + AUD_PIPE_CONV_CFG);
printf("AUD_PIPE_CONV_CFG Convertor_1_Digen\t\t\t%lu\n", BIT(dword, 0));
printf("AUD_PIPE_CONV_CFG Convertor_2_Digen\t\t\t%lu\n", BIT(dword, 1));
printf("AUD_PIPE_CONV_CFG Convertor_3_Digen\t\t\t%lu\n", BIT(dword, 2));
printf("AUD_PIPE_CONV_CFG Convertor_1_Stream_ID\t\t%lu\n", BITS(dword, 7, 4));
printf("AUD_PIPE_CONV_CFG Convertor_2_Stream_ID\t\t%lu\n", BITS(dword, 11, 8));
printf("AUD_PIPE_CONV_CFG Convertor_3_Stream_ID\t\t%lu\n", BITS(dword, 15, 12));
printf("AUD_PIPE_CONV_CFG Port_B_Out_Enable\t\t\t%lu\n", BIT(dword, 16));
printf("AUD_PIPE_CONV_CFG Port_C_Out_Enable\t\t\t%lu\n", BIT(dword, 17));
printf("AUD_PIPE_CONV_CFG Port_D_Out_Enable\t\t\t%lu\n", BIT(dword, 18));
printf("AUD_PIPE_CONV_CFG Port_B_Amp_Mute_Status\t\t%lu\n", BIT(dword, 20));
printf("AUD_PIPE_CONV_CFG Port_C_Amp_Mute_Status\t\t%lu\n", BIT(dword, 21));
printf("AUD_PIPE_CONV_CFG Port_D_Amp_Mute_Status\t\t%lu\n", BIT(dword, 22));
}
static void dump_aud_dig_cnvt(int index)
{
uint32_t dword;
char prefix[MAX_PREFIX_SIZE];
if (!IS_HASWELL_PLUS(devid)) {
dword = INREG(aud_reg_base + AUD_OUT_DIG_CNVT_A + (index - PIPE_A) * 0x100);
sprintf(prefix, "AUD_OUT_DIG_CNVT_%c", 'A' + index - PIPE_A);
} else {
dword = INREG(aud_reg_base + AUD_C1_DIG_CNVT + (index - CONVERTER_1) * 0x100);
sprintf(prefix, "AUD_C%c_DIG_CNVT ", '1' + index - CONVERTER_1);
}
printf("%s V\t\t\t\t\t%lu\n", prefix, BIT(dword, 1));
printf("%s VCFG\t\t\t\t%lu\n", prefix, BIT(dword, 2));
printf("%s PRE\t\t\t\t\t%lu\n", prefix, BIT(dword, 3));
printf("%s Copy\t\t\t\t%lu\n", prefix, BIT(dword, 4));
printf("%s NonAudio\t\t\t\t%lu\n", prefix, BIT(dword, 5));
printf("%s PRO\t\t\t\t\t%lu\n", prefix, BIT(dword, 6));
printf("%s Level\t\t\t\t%lu\n", prefix, BIT(dword, 7));
printf("%s Category_Code\t\t\t%lu\n", prefix, BITS(dword, 14, 8));
printf("%s Lowest_Channel_Number\t\t%lu\n", prefix, BITS(dword, 19, 16));
printf("%s Stream_ID\t\t\t\t%lu\n", prefix, BITS(dword, 23, 20));
}
static void dump_aud_str_desc(int index)
{
uint32_t dword;
char prefix[MAX_PREFIX_SIZE];
uint32_t rate;
if (!IS_HASWELL_PLUS(devid)) {
dword = INREG(aud_reg_base + AUD_OUT_STR_DESC_A + (index - PIPE_A) * 0x100);
sprintf(prefix, "AUD_OUT_STR_DESC_%c", 'A' + index - PIPE_A);
} else {
dword = INREG(aud_reg_base + AUD_C1_STR_DESC + (index - CONVERTER_1) * 0x100);
sprintf(prefix, "AUD_C%c_STR_DESC ", '1' + index - CONVERTER_1);
}
printf("%s Number_of_Channels_in_a_Stream\t%lu\n", prefix, BITS(dword, 3, 0) + 1);
printf("%s Bits_per_Sample\t\t\t[%#lx] %s\n", prefix, BITS(dword, 6, 4),
OPNAME(bits_per_sample, BITS(dword, 6, 4)));
printf("%s Sample_Base_Rate_Divisor\t\t[%#lx] %s\n", prefix, BITS(dword, 10, 8),
OPNAME(sample_base_rate_divisor, BITS(dword, 10, 8)));
printf("%s Sample_Base_Rate_Mult\t\t[%#lx] %s\n", prefix, BITS(dword, 13, 11),
OPNAME(sample_base_rate_mult, BITS(dword, 13, 11)));
printf("%s Sample_Base_Rate\t\t\t[%#lx] %s\t", prefix, BIT(dword, 14),
OPNAME(sample_base_rate, BIT(dword, 14)));
rate = (BIT(dword, 14) ? 44100 : 48000) * (BITS(dword, 13, 11) + 1)
/(BITS(dword, 10, 8) + 1);
printf("=> Sample Rate %d Hz\n", rate);
printf("%s Convertor_Channel_Count\t\t%lu\n", prefix, BITS(dword, 20, 16) + 1);
if (!IS_HASWELL_PLUS(devid))
printf("%s HBR_enable\t\t\t\t%lu\n", prefix, BITS(dword, 28, 27));
}
#define dump_aud_out_ch_str dump_aud_out_chan_map
static void dump_aud_out_chan_map(void)
{
uint32_t dword;
int i;
printf("AUD_OUT_CHAN_MAP Converter_Channel_MAP PORTB PORTC PORTD\n");
for (i = 0; i < 8; i++) {
OUTREG(aud_reg_base + AUD_OUT_CHAN_MAP, i | (i << 8) | (i << 16));
dword = INREG(aud_reg_base + AUD_OUT_CHAN_MAP);
printf("\t\t\t\t%lu\t%lu\t%lu\t%lu\n",
1 + BITS(dword, 3, 0),
1 + BITS(dword, 7, 4),
1 + BITS(dword, 15, 12),
1 + BITS(dword, 23, 20));
}
}
static void dump_aud_connect_list(void)
{
uint32_t dword;
char prefix[MAX_PREFIX_SIZE];
dword = INREG(aud_reg_base + AUD_PINW_CONNLNG_LIST);
sprintf(prefix, "AUD_PINW_CONNLNG_LIST");
printf("%s Connect_List_Length\t\t%lu\n", prefix, BITS(dword, 6, 0));
printf("%s Form \t\t\t\t[%#lx] %s\n", prefix, BIT(dword, 7),
OPNAME(connect_list_form, BIT(dword, 7)));
printf("%s Connect_List_Entry\t\t%lu, %lu\n", prefix, BITS(dword, 15, 8), BITS(dword, 23, 16));
}
static void dump_aud_connect_select(void)
{
uint32_t dword;
char prefix[MAX_PREFIX_SIZE];
if (IS_HASWELL_PLUS(devid)) {
dword = INREG(aud_reg_base + AUD_PIPE_CONN_SEL_CTRL);
sprintf(prefix, "AUD_PIPE_CONN_SEL_CTRL");
} else {
dword = INREG(aud_reg_base + AUD_PINW_CONNLNG_SEL);
sprintf(prefix, "AUD_PINW_CONNLNG_SEL ");
}
printf("%s Connection_select_Port_B\t%#lx\n", prefix, BITS(dword, 7, 0));
printf("%s Connection_select_Port_C\t%#lx\n", prefix, BITS(dword, 15, 8));
printf("%s Connection_select_Port_D\t%#lx\n", prefix, BITS(dword, 23, 16));
}
static void dump_aud_ctrl_state(int index)
{
uint32_t dword;
int offset;
if (IS_HASWELL_PLUS(devid)) {
offset = (index - TRANSCODER_A) * 0x100;
dword = INREG(aud_reg_base + AUD_TCA_DIP_ELD_CTRL_ST + offset);
printf("Audio DIP and ELD control state for Transcoder %c\n", 'A' + index - TRANSCODER_A);
} else {
offset = (index - PIPE_A) * 0x100;
dword = INREG(aud_reg_base + AUD_CNTL_ST_A + offset);
printf("Audio control state - Pipe %c\n", 'A' + index - PIPE_A);
}
printf("\tELD_ACK\t\t\t\t\t\t%lu\n", BIT(dword, 4));
printf("\tELD_buffer_size\t\t\t\t\t%lu\n", BITS(dword, 14, 10));
printf("\tDIP_transmission_frequency\t\t\t[0x%lx] %s\n", BITS(dword, 17, 16),
dip_trans[BITS(dword, 17, 16)]);
printf("\tDIP Buffer Index \t\t\t\t[0x%lx] %s\n", BITS(dword, 20, 18),
dip_index[BITS(dword, 20, 18)]);
printf("\tAudio DIP type enable status\t\t\t[0x%04lx] %s, %s, %s\n", BITS(dword, 24, 21),
dip_type[BIT(dword, 21)], dip_gen1_state[BIT(dword, 22)], dip_gen2_state[BIT(dword, 23)]);
printf("\tAudio DIP port select\t\t\t\t[0x%lx] %s\n", BITS(dword, 30, 29),
dip_port[BITS(dword, 30, 29)]);
printf("\n");
}
static void dump_aud_ctrl_state2(void)
{
uint32_t dword;
dword = INREG(aud_reg_base + AUD_CNTL_ST2);
printf("AUD_CNTL_ST2 ELD_validB\t\t\t\t%lu\n", BIT(dword, 0));
printf("AUD_CNTL_ST2 CP_ReadyB\t\t\t\t\t%lu\n", BIT(dword, 1));
printf("AUD_CNTL_ST2 ELD_validC\t\t\t\t%lu\n", BIT(dword, 4));
printf("AUD_CNTL_ST2 CP_ReadyC\t\t\t\t\t%lu\n", BIT(dword, 5));
printf("AUD_CNTL_ST2 ELD_validD\t\t\t\t%lu\n", BIT(dword, 8));
printf("AUD_CNTL_ST2 CP_ReadyD\t\t\t\t\t%lu\n", BIT(dword, 9));
}
/* for hsw+ */
static void dump_aud_eld_cp_vld(void)
{
uint32_t dword;
dword = INREG(aud_reg_base + AUD_PIN_ELD_CP_VLD);
printf("AUD_PIN_ELD_CP_VLD Transcoder_A ELD_valid\t\t%lu\n", BIT(dword, 0));
printf("AUD_PIN_ELD_CP_VLD Transcoder_A CP_Ready \t\t%lu\n", BIT(dword, 1));
printf("AUD_PIN_ELD_CP_VLD Transcoder_A Out_enable\t\t%lu\n", BIT(dword, 2));
printf("AUD_PIN_ELD_CP_VLD Transcoder_A Inactive\t\t%lu\n", BIT(dword, 3));
printf("AUD_PIN_ELD_CP_VLD Transcoder_B ELD_valid\t\t%lu\n", BIT(dword, 4));
printf("AUD_PIN_ELD_CP_VLD Transcoder_B CP_Ready\t\t%lu\n", BIT(dword, 5));
printf("AUD_PIN_ELD_CP_VLD Transcoder_B OUT_enable\t\t%lu\n", BIT(dword, 6));
printf("AUD_PIN_ELD_CP_VLD Transcoder_B Inactive\t\t%lu\n", BIT(dword, 7));
printf("AUD_PIN_ELD_CP_VLD Transcoder_C ELD_valid\t\t%lu\n", BIT(dword, 8));
printf("AUD_PIN_ELD_CP_VLD Transcoder_C CP_Ready\t\t%lu\n", BIT(dword, 9));
printf("AUD_PIN_ELD_CP_VLD Transcoder_C OUT_enable\t\t%lu\n", BIT(dword, 10));
printf("AUD_PIN_ELD_CP_VLD Transcoder_C Inactive\t\t%lu\n", BIT(dword, 11));
}
static void dump_aud_hdmi_status(void)
{
uint32_t dword;
dword = INREG(aud_reg_base + AUD_HDMIW_STATUS);
printf("AUD_HDMIW_STATUS Function_Reset\t\t\t%lu\n", BIT(dword, 24));
printf("AUD_HDMIW_STATUS BCLK/CDCLK_FIFO_Overrun\t\t%lu\n", BIT(dword, 25));
printf("AUD_HDMIW_STATUS Conv_A_CDCLK/DOTCLK_FIFO_Overrun\t%lu\n", BIT(dword, 28));
printf("AUD_HDMIW_STATUS Conv_A_CDCLK/DOTCLK_FIFO_Underrun\t%lu\n", BIT(dword, 29));
printf("AUD_HDMIW_STATUS Conv_B_CDCLK/DOTCLK_FIFO_Overrun\t%lu\n", BIT(dword, 30));
printf("AUD_HDMIW_STATUS Conv_B_CDCLK/DOTCLK_FIFO_Underrun\t%lu\n", BIT(dword, 31));
}
/*
* Display registers of Ironlake and Valleyview
*/
#undef DP_CTL_B
#undef DP_CTL_C
#undef DP_CTL_D
#define DP_CTL_B 0x4100
#define DP_CTL_C 0x4200
#define DP_CTL_D 0x4300
/* ILK HDMI port ctrl */
#define HDMI_CTL_B 0x1140
#define HDMI_CTL_C 0x1150
#define HDMI_CTL_D 0x1160
/* VLV HDMI port ctrl */
#define SDVO_HDMI_CTL_B 0x1140
#define SDVO_HDMI_CTL_C 0x1160
static void dump_dp_port_ctrl(int port)
{
uint32_t dword;
int port_ctrl;
char prefix[MAX_PREFIX_SIZE];
sprintf(prefix, "DP_%c", 'B' + port - PORT_B);
port_ctrl = disp_reg_base + DP_CTL_B + (port - PORT_B) * 0x100;
dword = INREG(port_ctrl);
printf("%s DisplayPort_Enable\t\t\t\t\t%lu\n", prefix, BIT(dword, 31));
printf("%s Transcoder_Select\t\t\t\t\t%s\n", prefix, BIT(dword, 30) ? "Transcoder B" : "Transcoder A");
printf("%s Port_Width_Selection\t\t\t\t[0x%lx] %s\n", prefix, BITS(dword, 21, 19),
dp_port_width[BITS(dword, 21, 19)]);
printf("%s Port_Detected\t\t\t\t\t%lu\n", prefix, BIT(dword, 2));
printf("%s HDCP_Port_Select\t\t\t\t\t%lu\n", prefix, BIT(dword, 5));
printf("%s Audio_Output_Enable\t\t\t\t%lu\n", prefix, BIT(dword, 6));
}
static void dump_hdmi_port_ctrl(int port)
{
uint32_t dword;
int port_ctrl;
char prefix[MAX_PREFIX_SIZE];
if (IS_VALLEYVIEW(devid)) {
sprintf(prefix, "SDVO/HDMI%c", 'B' + port - PORT_B);
port_ctrl = disp_reg_base + SDVO_HDMI_CTL_B + (port - PORT_B) * 0x20;
} else {
sprintf(prefix, "HDMI%c ", 'B' + port - PORT_B);
port_ctrl = disp_reg_base + HDMI_CTL_B + (port - PORT_B) * 0x10;
}
dword = INREG(port_ctrl);
printf("%s HDMI_Enable\t\t\t\t\t%u\n", prefix, !!(dword & SDVO_ENABLE));
printf("%s Transcoder_Select\t\t\t\t%s\n", prefix, BIT(dword, 30) ? "Transcoder B" : "Transcoder A");
printf("%s HDCP_Port_Select\t\t\t\t%lu\n", prefix, BIT(dword, 5));
if (port == PORT_B) /* TODO: check spec, not found in Ibx b-spec, and only for port B? */
printf("%s SDVO Hot Plug Interrupt Detect Enable\t%lu\n", prefix, BIT(dword, 23));
printf("%s Digital_Port_Detected\t\t\t%lu\n", prefix, BIT(dword, 2));
printf("%s Encoding\t\t\t\t\t[0x%lx] %s\n", prefix, BITS(dword, 11, 10),
sdvo_hdmi_encoding[BITS(dword, 11, 10)]);
printf("%s Null_packets_enabled_during_Vsync\t\t%u\n", prefix, !!(dword & SDVO_NULL_PACKETS_DURING_VSYNC));
printf("%s Audio_Output_Enable\t\t\t\t%u\n", prefix, !!(dword & SDVO_AUDIO_ENABLE));
}
static void dump_ironlake(void)
{
uint32_t dword;
if (!IS_VALLEYVIEW(devid))
set_reg_base(0xe0000, 0x2000); /* ironlake */
else
set_reg_base(0x60000 + VLV_DISPLAY_BASE, 0x2000);
if (!IS_VALLEYVIEW(devid)) {
dump_disp_reg(HDMI_CTL_B, "sDVO/HDMI Port B Control");
dump_disp_reg(HDMI_CTL_C, "HDMI Port C Control");
dump_disp_reg(HDMI_CTL_D, "HDMI Port D Control");
} else {
dump_disp_reg(SDVO_HDMI_CTL_B, "sDVO/HDMI Port B Control");
dump_disp_reg(SDVO_HDMI_CTL_C, "sDVO/HDMI Port C Control");
}
dump_disp_reg(DP_CTL_B, "DisplayPort B Control Register");
dump_disp_reg(DP_CTL_C, "DisplayPort C Control Register");
if (!IS_VALLEYVIEW(devid))
dump_disp_reg(DP_CTL_D, "DisplayPort D Control Register");
dump_aud_reg(AUD_CONFIG_A, "Audio Configuration - Transcoder A");
dump_aud_reg(AUD_CONFIG_B, "Audio Configuration - Transcoder B");
dump_aud_reg(AUD_CTS_ENABLE_A, "Audio CTS Programming Enable - Transcoder A");
dump_aud_reg(AUD_CTS_ENABLE_B, "Audio CTS Programming Enable - Transcoder B");
dump_aud_reg(AUD_MISC_CTRL_A, "Audio MISC Control for Transcoder A");
dump_aud_reg(AUD_MISC_CTRL_B, "Audio MISC Control for Transcoder B");
dump_aud_reg(AUD_VID_DID, "Audio Vendor ID / Device ID");
dump_aud_reg(AUD_RID, "Audio Revision ID");
dump_aud_reg(AUD_PWRST, "Audio Power State (Function Group, Convertor, Pin Widget)");
dump_aud_reg(AUD_PORT_EN_HD_CFG, "Audio Port Enable HDAudio Config");
dump_aud_reg(AUD_OUT_DIG_CNVT_A, "Audio Digital Converter - Conv A");
dump_aud_reg(AUD_OUT_DIG_CNVT_B, "Audio Digital Converter - Conv B");
dump_aud_reg(AUD_OUT_CH_STR, "Audio Channel ID and Stream ID");
dump_aud_reg(AUD_OUT_STR_DESC_A, "Audio Stream Descriptor Format - Conv A");
dump_aud_reg(AUD_OUT_STR_DESC_B, "Audio Stream Descriptor Format - Conv B");
dump_aud_reg(AUD_PINW_CONNLNG_LIST, "Audio Connection List");
dump_aud_reg(AUD_PINW_CONNLNG_SEL, "Audio Connection Select");
dump_aud_reg(AUD_CNTL_ST_A, "Audio Control State Register - Transcoder A");
dump_aud_reg(AUD_CNTL_ST_B, "Audio Control State Register - Transcoder B");
dump_aud_reg(AUD_CNTL_ST2, "Audio Control State 2");
dump_aud_reg(AUD_HDMIW_STATUS, "Audio HDMI Status");
dump_aud_reg(AUD_HDMIW_HDMIEDID_A, "HDMI Data EDID Block - Transcoder A");
dump_aud_reg(AUD_HDMIW_HDMIEDID_B, "HDMI Data EDID Block - Transcoder B");
dump_aud_reg(AUD_HDMIW_INFOFR_A, "Audio Widget Data Island Packet - Transcoder A");
dump_aud_reg(AUD_HDMIW_INFOFR_B, "Audio Widget Data Island Packet - Transcoder B");
printf("\nDetails:\n\n");
dump_aud_vendor_device_id();
dump_aud_revision_id();
dump_hdmi_port_ctrl(PORT_B);
dump_hdmi_port_ctrl(PORT_C);
if (!IS_VALLEYVIEW(devid))
dump_hdmi_port_ctrl(PORT_D);
dump_dp_port_ctrl(PORT_B);
dump_dp_port_ctrl(PORT_C);
if (!IS_VALLEYVIEW(devid))
dump_dp_port_ctrl(PORT_D);
dump_aud_config(PIPE_A);
dump_aud_config(PIPE_B);
dump_aud_m_cts_enable(PIPE_A);
dump_aud_m_cts_enable(PIPE_B);
dump_aud_misc_control(PIPE_A);
dump_aud_misc_control(PIPE_B);
dump_aud_power_state();
dump_aud_port_en_hd_cfg();
dump_aud_dig_cnvt(PIPE_A);
dump_aud_dig_cnvt(PIPE_B);
dump_aud_out_ch_str();
dump_aud_str_desc(PIPE_A);
dump_aud_str_desc(PIPE_B);
dump_aud_connect_list();
dump_aud_connect_select();
dump_aud_ctrl_state(PIPE_A);
dump_aud_ctrl_state(PIPE_B);
dump_aud_ctrl_state2();
dump_aud_hdmi_status();
dump_aud_edid_data(PIPE_A);
dump_aud_edid_data(PIPE_B);
dump_aud_infoframe(PIPE_A);
dump_aud_infoframe(PIPE_B);
}
#undef VIDEO_DIP_CTL_A
#undef VIDEO_DIP_CTL_B
#undef VIDEO_DIP_CTL_C
#undef VIDEO_DIP_CTL_D
#undef VIDEO_DIP_DATA
/*
* Haswell+ display registers
*/
/* DisplayPort Transport Control */
#define DP_TP_CTL_A 0x64040
#define DP_TP_CTL_B 0x64140
#define DP_TP_CTL_C 0x64240
#define DP_TP_CTL_D 0x64340
#define DP_TP_CTL_E 0x64440
/* DisplayPort Transport Status */
#define DP_TP_ST_A 0x64044
#define DP_TP_ST_B 0x64144
#define DP_TP_ST_C 0x64244
#define DP_TP_ST_D 0x64344
#define DP_TP_ST_E 0x64444
/* DDI Buffer Control */
#define DDI_BUF_CTL_A 0x64000
#define DDI_BUF_CTL_B 0x64100
#define DDI_BUF_CTL_C 0x64200
#define DDI_BUF_CTL_D 0x64300
#define DDI_BUF_CTL_E 0x64400
/* DDI Buffer Translation */
#define DDI_BUF_TRANS_A 0x64e00
#define DDI_BUF_TRANS_B 0x64e60
#define DDI_BUF_TRANS_C 0x64ec0
#define DDI_BUF_TRANS_D 0x64f20
#define DDI_BUF_TRANS_E 0x64f80
/* DDI Aux Channel */
#define DDI_AUX_CHANNEL_CTRL 0x64010
#define DDI_AUX_DATA 0x64014
#define DDI_AUX_TST 0x64028
/* DDI CRC Control */
#define DDI_CRC_CTL_A 0x64050
#define DDI_CRC_CTL_B 0x64150
#define DDI_CRC_CTL_C 0x64250
#define DDI_CRC_CTL_D 0x64350
#define DDI_CRC_CTL_E 0x64450
/* Pipe DDI Function Control */
#define PIPE_DDI_FUNC_CTL_A 0x60400
#define PIPE_DDI_FUNC_CTL_B 0x61400
#define PIPE_DDI_FUNC_CTL_C 0x62400
#define PIPE_DDI_FUNC_CTL_EDP 0x6F400
/* Pipe Configuration */
#define PIPE_CONF_A 0x70008
#define PIPE_CONF_B 0x71008
#define PIPE_CONF_C 0x72008
#define PIPE_CONF_EDP 0x7F008
/* Video DIP Control */
#define VIDEO_DIP_CTL_A 0x60200
#define VIDEO_DIP_CTL_B 0x61200
#define VIDEO_DIP_CTL_C 0x62200
#define VIDEO_DIP_CTL_D 0x63200
#define VIDEO_DIP_DATA 0x60220
#define VIDEO_DIP_ECC 0x60240
static void dump_ddi_buf_ctl(int port)
{
uint32_t dword;
dword = INREG(DDI_BUF_CTL_A + (port - PORT_A) * 0x100);
printf("DDI %c Buffer control\n", 'A' + port - PORT_A);
printf("\tDP port width\t\t\t\t\t[0x%lx] %s\n", BITS(dword, 3, 1),
OPNAME(dp_port_width, BITS(dword, 3, 1)));
printf("\tDDI Buffer Enable\t\t\t\t%ld\n", BIT(dword, 31));
}
static void dump_ddi_func_ctl(int pipe)
{
uint32_t dword;
dword = INREG(PIPE_DDI_FUNC_CTL_A + (pipe - PIPE_A) * 0x1000);
printf("Pipe %c DDI Function Control\n", 'A' + pipe - PIPE_A);
printf("\tBITS per color\t\t\t\t\t[0x%lx] %s\n", BITS(dword, 22, 20),
OPNAME(bits_per_color, BITS(dword, 22, 20)));
printf("\tPIPE DDI Mode\t\t\t\t\t[0x%lx] %s\n", BITS(dword, 26, 24),
OPNAME(ddi_mode, BITS(dword, 26, 24)));
printf("\tPIPE DDI selection\t\t\t\t[0x%lx] %s\n", BITS(dword, 30, 28),
OPNAME(trans_to_port_sel, BITS(dword, 30, 28)));
printf("\tPIPE DDI Function Enable\t\t\t[0x%lx]\n", BIT(dword, 31));
}
static void dump_aud_connect_list_entry_length(int transcoder)
{
uint32_t dword;
char prefix[MAX_PREFIX_SIZE];
dword = INREG(aud_reg_base + AUD_TCA_PIN_PIPE_CONN_ENTRY_LNGTH + (transcoder - TRANSCODER_A) * 0x100);
sprintf(prefix, "AUD_TC%c_PIN_PIPE_CONN_ENTRY_LNGTH", 'A' + transcoder - TRANSCODER_A);
printf("%s Connect_List_Length\t%lu\n", prefix, BITS(dword, 6, 0));
printf("%s Form \t\t[%#lx] %s\n", prefix, BIT(dword, 7),
OPNAME(connect_list_form, BIT(dword, 7)));
printf("%s Connect_List_Entry\t%lu\n", prefix, BITS(dword, 15, 8));
}
static void dump_aud_connect_select_ctrl(void)
{
uint32_t dword;
dword = INREG(aud_reg_base + AUD_PIPE_CONN_SEL_CTRL);
printf("AUD_PIPE_CONN_SEL_CTRL Connection_select_Port_B\t%#lx\n", BITS(dword, 7, 0));
printf("AUD_PIPE_CONN_SEL_CTRL Connection_select_Port_C\t%#lx\n", BITS(dword, 15, 8));
printf("AUD_PIPE_CONN_SEL_CTRL Connection_select_Port_D\t%#lx\n", BITS(dword, 23, 16));
}
static void dump_aud_dip_eld_ctrl_st(int transcoder)
{
uint32_t dword;
int offset = (transcoder - TRANSCODER_A) * 0x100;
dword = INREG(aud_reg_base + AUD_TCA_DIP_ELD_CTRL_ST + offset);
printf("Audio DIP and ELD control state for Transcoder %c\n", 'A' + transcoder - TRANSCODER_A);
printf("\tELD_ACK\t\t\t\t\t\t%lu\n", BIT(dword, 4));
printf("\tELD_buffer_size\t\t\t\t\t%lu\n", BITS(dword, 14, 10));
printf("\tDIP_transmission_frequency\t\t\t[0x%lx] %s\n", BITS(dword, 17, 16),
dip_trans[BITS(dword, 17, 16)]);
printf("\tDIP Buffer Index \t\t\t\t[0x%lx] %s\n", BITS(dword, 20, 18),
dip_index[BITS(dword, 20, 18)]);
printf("\tAudio DIP type enable status\t\t\t[0x%04lx] %s, %s, %s\n", BITS(dword, 24, 21),
dip_type[BIT(dword, 21)], dip_gen1_state[BIT(dword, 22)], dip_gen2_state[BIT(dword, 23)]);
printf("\tAudio DIP port select\t\t\t\t[0x%lx] %s\n", BITS(dword, 30, 29),
dip_port[BITS(dword, 30, 29)]);
printf("\n");
}
static void dump_aud_hdmi_fifo_status(void)
{
uint32_t dword;
dword = INREG(aud_reg_base + AUD_HDMI_FIFO_STATUS);
printf("AUD_HDMI_FIFO_STATUS Function_Reset\t\t\t%lu\n", BIT(dword, 24));
printf("AUD_HDMI_FIFO_STATUS Conv_1_CDCLK/DOTCLK_FIFO_Overrun\t%lu\n", BIT(dword, 26));
printf("AUD_HDMI_FIFO_STATUS Conv_1_CDCLK/DOTCLK_FIFO_Underrun\t%lu\n", BIT(dword, 27));
printf("AUD_HDMI_FIFO_STATUS Conv_2_CDCLK/DOTCLK_FIFO_Overrun\t%lu\n", BIT(dword, 28));
printf("AUD_HDMI_FIFO_STATUS Conv_2_CDCLK/DOTCLK_FIFO_Underrun\t%lu\n", BIT(dword, 29));
printf("AUD_HDMI_FIFO_STATUS Conv_3_CDCLK/DOTCLK_FIFO_Overrun\t%lu\n", BIT(dword, 30));
printf("AUD_HDMI_FIFO_STATUS Conv_3_CDCLK/DOTCLK_FIFO_Underrun\t%lu\n", BIT(dword, 31));
}
static void parse_bdw_audio_chicken_bit_reg(uint32_t dword)
{
printf("\t");
printf("%s\n\t", OPNAME(vanilla_dp12_en, BIT(dword, 31)));
printf("%s\n\t", OPNAME(vanilla_3_widgets_en, BIT(dword, 30)));
printf("%s\n\t", OPNAME(block_audio, BIT(dword, 10)));
printf("%s\n\t", OPNAME(dis_eld_valid_pulse_trans, BIT(dword, 9)));
printf("%s\n\t", OPNAME(dis_pd_pulse_trans, BIT(dword, 8)));
printf("%s\n\t", OPNAME(dis_ts_delta_err, BIT(dword, 7)));
printf("%s\n\t", OPNAME(dis_ts_fix_dp_hbr, BIT(dword, 6)));
printf("%s\n\t", OPNAME(pattern_gen_8_ch_en, BIT(dword, 5)));
printf("%s\n\t", OPNAME(pattern_gen_2_ch_en, BIT(dword, 4)));
printf("%s\n\t", OPNAME(fabric_32_44_dis, BIT(dword, 3)));
printf("%s\n\t", OPNAME(epss_dis, BIT(dword, 2)));
printf("%s\n\t", OPNAME(ts_test_mode, BIT(dword, 1)));
printf("%s\n", OPNAME(en_mmio_program, BIT(dword, 0)));
}
/* Dump audio registers for Haswell and its successors (eg. Broadwell).
* Their register layout are same in the north display engine.
*/
static void dump_hsw_plus(void)
{
uint32_t dword;
int i;
set_aud_reg_base(0x65000);
/* HSW DDI Buffer */
dump_reg(DDI_BUF_CTL_A, "DDI Buffer Controler A");
dump_reg(DDI_BUF_CTL_B, "DDI Buffer Controler B");
dump_reg(DDI_BUF_CTL_C, "DDI Buffer Controler C");
dump_reg(DDI_BUF_CTL_D, "DDI Buffer Controler D");
dump_reg(DDI_BUF_CTL_E, "DDI Buffer Controler E");
/* HSW Pipe Function */
dump_reg(PIPE_CONF_A, "PIPE Configuration A");
dump_reg(PIPE_CONF_B, "PIPE Configuration B");
dump_reg(PIPE_CONF_C, "PIPE Configuration C");
dump_reg(PIPE_CONF_EDP, "PIPE Configuration EDP");
dump_reg(PIPE_DDI_FUNC_CTL_A, "PIPE DDI Function Control A");
dump_reg(PIPE_DDI_FUNC_CTL_B, "PIPE DDI Function Control B");
dump_reg(PIPE_DDI_FUNC_CTL_C, "PIPE DDI Function Control C");
dump_reg(PIPE_DDI_FUNC_CTL_EDP, "PIPE DDI Function Control EDP");
/* HSW Display port */
dump_reg(DP_TP_CTL_A, "DisplayPort Transport A Control");
dump_reg(DP_TP_CTL_B, "DisplayPort Transport B Control");
dump_reg(DP_TP_CTL_C, "DisplayPort Transport C Control");
dump_reg(DP_TP_CTL_D, "DisplayPort Transport D Control");
dump_reg(DP_TP_CTL_E, "DisplayPort Transport E Control");
dump_reg(DP_TP_ST_A, "DisplayPort Transport A Status");
dump_reg(DP_TP_ST_B, "DisplayPort Transport B Status");
dump_reg(DP_TP_ST_C, "DisplayPort Transport C Status");
dump_reg(DP_TP_ST_D, "DisplayPort Transport D Status");
dump_reg(DP_TP_ST_E, "DisplayPort Transport E Status");
/* HSW North Display Audio */
dump_aud_reg(AUD_TCA_CONFIG, "Audio Configuration - Transcoder A");
dump_aud_reg(AUD_TCB_CONFIG, "Audio Configuration - Transcoder B");
dump_aud_reg(AUD_TCC_CONFIG, "Audio Configuration - Transcoder C");
dump_aud_reg(AUD_C1_MISC_CTRL, "Audio Converter 1 MISC Control");
dump_aud_reg(AUD_C2_MISC_CTRL, "Audio Converter 2 MISC Control");
dump_aud_reg(AUD_C3_MISC_CTRL, "Audio Converter 3 MISC Control");
dump_aud_reg(AUD_VID_DID, "Audio Vendor ID / Device ID");
dump_aud_reg(AUD_RID, "Audio Revision ID");
dump_aud_reg(AUD_TCA_M_CTS_ENABLE, "Audio M & CTS Programming Enable - Transcoder A");
dump_aud_reg(AUD_TCB_M_CTS_ENABLE, "Audio M & CTS Programming Enable - Transcoder B");
dump_aud_reg(AUD_TCC_M_CTS_ENABLE, "Audio M & CTS Programming Enable - Transcoder C");
dump_aud_reg(AUD_PWRST, "Audio Power State (Function Group, Convertor, Pin Widget)");
dump_aud_reg(AUD_TCA_EDID_DATA, "Audio EDID Data Block - Transcoder A");
dump_aud_reg(AUD_TCB_EDID_DATA, "Audio EDID Data Block - Transcoder B");
dump_aud_reg(AUD_TCC_EDID_DATA, "Audio EDID Data Block - Transcoder C");
dump_aud_reg(AUD_TCA_INFOFR, "Audio Widget Data Island Packet - Transcoder A");
dump_aud_reg(AUD_TCB_INFOFR, "Audio Widget Data Island Packet - Transcoder B");
dump_aud_reg(AUD_TCC_INFOFR, "Audio Widget Data Island Packet - Transcoder C");
dump_aud_reg(AUD_PIPE_CONV_CFG, "Audio Pipe and Converter Configs");
dump_aud_reg(AUD_C1_DIG_CNVT, "Audio Digital Converter - Converter 1");
dump_aud_reg(AUD_C2_DIG_CNVT, "Audio Digital Converter - Converter 2");
dump_aud_reg(AUD_C3_DIG_CNVT, "Audio Digital Converter - Converter 3");
dump_aud_reg(AUD_C1_STR_DESC, "Audio Stream Descriptor Format - Converter 1");
dump_aud_reg(AUD_C2_STR_DESC, "Audio Stream Descriptor Format - Converter 2");
dump_aud_reg(AUD_C3_STR_DESC, "Audio Stream Descriptor Format - Converter 3");
dump_aud_reg(AUD_OUT_CHAN_MAP, "Audio Output Channel Mapping");
dump_aud_reg(AUD_TCA_PIN_PIPE_CONN_ENTRY_LNGTH, "Audio Connection List entry and Length - Transcoder A");
dump_aud_reg(AUD_TCB_PIN_PIPE_CONN_ENTRY_LNGTH, "Audio Connection List entry and Length - Transcoder B");
dump_aud_reg(AUD_TCC_PIN_PIPE_CONN_ENTRY_LNGTH, "Audio Connection List entry and Length - Transcoder C");
dump_aud_reg(AUD_PIPE_CONN_SEL_CTRL, "Audio Pipe Connection Select Control");
dump_aud_reg(AUD_TCA_DIP_ELD_CTRL_ST, "Audio DIP and ELD control state - Transcoder A");
dump_aud_reg(AUD_TCB_DIP_ELD_CTRL_ST, "Audio DIP and ELD control state - Transcoder B");
dump_aud_reg(AUD_TCC_DIP_ELD_CTRL_ST, "Audio DIP and ELD control state - Transcoder C");
dump_aud_reg(AUD_PIN_ELD_CP_VLD, "Audio pin ELD valid and CP ready status");
dump_aud_reg(AUD_HDMI_FIFO_STATUS, "Audio HDMI FIFO Status");
/* Audio debug registers */
dump_aud_reg(AUD_ICOI, "Audio Immediate Command Output Interface");
dump_aud_reg(AUD_IRII, "Audio Immediate Response Input Interface");
dump_aud_reg(AUD_ICS, "Audio Immediate Command Status");
dump_aud_reg(AUD_CHICKENBIT_REG, "Audio Chicken Bit Register");
dump_aud_reg(AUD_DP_DIP_STATUS, "Audio DP and DIP FIFO Debug Status");
dump_aud_reg(AUD_TCA_M_CTS, "Audio M CTS Read Back Transcoder A");
dump_aud_reg(AUD_TCB_M_CTS, "Audio M CTS Read Back Transcoder B");
dump_aud_reg(AUD_TCC_M_CTS, "Audio M CTS Read Back Transcoder C");
printf("\nDetails:\n\n");
dump_ddi_buf_ctl(PORT_A);
dump_ddi_buf_ctl(PORT_B);
dump_ddi_buf_ctl(PORT_C);
dump_ddi_buf_ctl(PORT_D);
dump_ddi_buf_ctl(PORT_E);
dump_ddi_func_ctl(PIPE_A);
dump_ddi_func_ctl(PIPE_B);
dump_ddi_func_ctl(PIPE_C);
/* audio configuration - details */
dump_aud_config(TRANSCODER_A);
dump_aud_config(TRANSCODER_B);
dump_aud_config(TRANSCODER_C);
dump_aud_misc_control(CONVERTER_1);
dump_aud_misc_control(CONVERTER_2);
dump_aud_misc_control(CONVERTER_3);
dump_aud_vendor_device_id();
dump_aud_revision_id();
dump_aud_m_cts_enable(TRANSCODER_A);
dump_aud_m_cts_enable(TRANSCODER_B);
dump_aud_m_cts_enable(TRANSCODER_C);
dump_aud_power_state();
dump_aud_edid_data(TRANSCODER_A);
dump_aud_edid_data(TRANSCODER_B);
dump_aud_edid_data(TRANSCODER_C);
dump_aud_infoframe(TRANSCODER_A);
dump_aud_infoframe(TRANSCODER_B);
dump_aud_infoframe(TRANSCODER_C);
dump_aud_pipe_conv_cfg();
dump_aud_dig_cnvt(CONVERTER_1);
dump_aud_dig_cnvt(CONVERTER_2);
dump_aud_dig_cnvt(CONVERTER_3);
dump_aud_str_desc(CONVERTER_1);
dump_aud_str_desc(CONVERTER_2);
dump_aud_str_desc(CONVERTER_3);
dump_aud_out_chan_map();
dump_aud_connect_list_entry_length(TRANSCODER_A);
dump_aud_connect_list_entry_length(TRANSCODER_B);
dump_aud_connect_list_entry_length(TRANSCODER_C);
dump_aud_connect_select_ctrl();
dump_aud_dip_eld_ctrl_st(TRANSCODER_A);
dump_aud_dip_eld_ctrl_st(TRANSCODER_B);
dump_aud_dip_eld_ctrl_st(TRANSCODER_C);
dump_aud_eld_cp_vld();
dump_aud_hdmi_fifo_status();
dword = read_aud_reg(AUD_ICS);
printf("IRV [%1lx] %s\t", BIT(dword, 1),
OPNAME(immed_result_valid, BIT(dword, 1)));
printf("ICB [%1lx] %s\n", BIT(dword, 1),
OPNAME(immed_cmd_busy, BIT(dword, 0)));
dword = read_aud_reg(AUD_CHICKENBIT_REG);
printf("AUD_CHICKENBIT_REG Audio Chicken Bits: %08x\n", dword);
if (IS_BROADWELL(devid))
parse_bdw_audio_chicken_bit_reg(dword);
dword = read_aud_reg(AUD_DP_DIP_STATUS);
printf("AUD_DP_DIP_STATUS Audio DP & DIP FIFO Status: %08x\n\t", dword);
for (i = 31; i >= 0; i--)
if (BIT(dword, i))
printf("%s\n\t", audio_dp_dip_status[i]);
printf("\n");
}
int main(int argc, char **argv)
{
struct pci_device *pci_dev;
pci_dev = intel_get_pci_device();
devid = pci_dev->device_id; /* XXX not true when mapping! */
do_self_tests();
if (argc == 2)
intel_map_file(argv[1]);
else
intel_get_mmio(pci_dev);
if (IS_VALLEYVIEW(devid)) {
printf("Valleyview audio registers:\n\n");
dump_ironlake();
} else if (IS_BROADWELL(devid) || IS_HASWELL(devid)) {
printf("%s audio registers:\n\n",
IS_BROADWELL(devid) ? "Broadwell" : "Haswell");
dump_hsw_plus();
} else if (IS_GEN6(devid) || IS_GEN7(devid)
|| getenv("HAS_PCH_SPLIT")) {
printf("%s audio registers:\n\n",
IS_GEN6(devid) ? "SandyBridge" : "IvyBridge");
intel_check_pch();
dump_cpt();
} else if (IS_GEN5(devid)) {
printf("Ironlake audio registers:\n\n");
dump_ironlake();
} else if (IS_G4X(devid)) {
printf("G45 audio registers:\n\n");
dump_eaglelake();
}
return 0;
}
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