kvj
/
linux-zen-server
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
linux-zen-server/drivers/gpu/drm/amd/include/atomfirmware.h

4539 lines
168 KiB
C
Raw Blame History

This file contains ambiguous Unicode characters!

This file contains ambiguous Unicode characters that may be confused with others in your current locale. If your use case is intentional and legitimate, you can safely ignore this warning. Use the Escape button to highlight these characters.

/****************************************************************************\
*
* File Name atomfirmware.h
* Project This is an interface header file between atombios and OS GPU drivers for SoC15 products
*
* Description header file of general definitions for OS and pre-OS video drivers
*
* Copyright 2014 Advanced Micro Devices, Inc.
*
* 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 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 COPYRIGHT HOLDER(S) OR AUTHOR(S) 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.
*
\****************************************************************************/
/*IMPORTANT NOTES
* If a change in VBIOS/Driver/Tool's interface is only needed for SoC15 and forward products, then the change is only needed in this atomfirmware.h header file.
* If a change in VBIOS/Driver/Tool's interface is only needed for pre-SoC15 products, then the change is only needed in atombios.h header file.
* If a change is needed for both pre and post SoC15 products, then the change has to be made separately and might be differently in both atomfirmware.h and atombios.h.
*/
#ifndef _ATOMFIRMWARE_H_
#define _ATOMFIRMWARE_H_
enum atom_bios_header_version_def{
ATOM_MAJOR_VERSION =0x0003,
ATOM_MINOR_VERSION =0x0003,
};
#ifdef _H2INC
#ifndef uint32_t
typedef unsigned long uint32_t;
#endif
#ifndef uint16_t
typedef unsigned short uint16_t;
#endif
#ifndef uint8_t
typedef unsigned char uint8_t;
#endif
#endif
enum atom_crtc_def{
ATOM_CRTC1 =0,
ATOM_CRTC2 =1,
ATOM_CRTC3 =2,
ATOM_CRTC4 =3,
ATOM_CRTC5 =4,
ATOM_CRTC6 =5,
ATOM_CRTC_INVALID =0xff,
};
enum atom_ppll_def{
ATOM_PPLL0 =2,
ATOM_GCK_DFS =8,
ATOM_FCH_CLK =9,
ATOM_DP_DTO =11,
ATOM_COMBOPHY_PLL0 =20,
ATOM_COMBOPHY_PLL1 =21,
ATOM_COMBOPHY_PLL2 =22,
ATOM_COMBOPHY_PLL3 =23,
ATOM_COMBOPHY_PLL4 =24,
ATOM_COMBOPHY_PLL5 =25,
ATOM_PPLL_INVALID =0xff,
};
// define ASIC internal encoder id ( bit vector ), used for CRTC_SourceSel
enum atom_dig_def{
ASIC_INT_DIG1_ENCODER_ID =0x03,
ASIC_INT_DIG2_ENCODER_ID =0x09,
ASIC_INT_DIG3_ENCODER_ID =0x0a,
ASIC_INT_DIG4_ENCODER_ID =0x0b,
ASIC_INT_DIG5_ENCODER_ID =0x0c,
ASIC_INT_DIG6_ENCODER_ID =0x0d,
ASIC_INT_DIG7_ENCODER_ID =0x0e,
};
//ucEncoderMode
enum atom_encode_mode_def
{
ATOM_ENCODER_MODE_DP =0,
ATOM_ENCODER_MODE_DP_SST =0,
ATOM_ENCODER_MODE_LVDS =1,
ATOM_ENCODER_MODE_DVI =2,
ATOM_ENCODER_MODE_HDMI =3,
ATOM_ENCODER_MODE_DP_AUDIO =5,
ATOM_ENCODER_MODE_DP_MST =5,
ATOM_ENCODER_MODE_CRT =15,
ATOM_ENCODER_MODE_DVO =16,
};
enum atom_encoder_refclk_src_def{
ENCODER_REFCLK_SRC_P1PLL =0,
ENCODER_REFCLK_SRC_P2PLL =1,
ENCODER_REFCLK_SRC_P3PLL =2,
ENCODER_REFCLK_SRC_EXTCLK =3,
ENCODER_REFCLK_SRC_INVALID =0xff,
};
enum atom_scaler_def{
ATOM_SCALER_DISABLE =0, /*scaler bypass mode, auto-center & no replication*/
ATOM_SCALER_CENTER =1, //For Fudo, it's bypass and auto-center & auto replication
ATOM_SCALER_EXPANSION =2, /*scaler expansion by 2 tap alpha blending mode*/
};
enum atom_operation_def{
ATOM_DISABLE = 0,
ATOM_ENABLE = 1,
ATOM_INIT = 7,
ATOM_GET_STATUS = 8,
};
enum atom_embedded_display_op_def{
ATOM_LCD_BL_OFF = 2,
ATOM_LCD_BL_OM = 3,
ATOM_LCD_BL_BRIGHTNESS_CONTROL = 4,
ATOM_LCD_SELFTEST_START = 5,
ATOM_LCD_SELFTEST_STOP = 6,
};
enum atom_spread_spectrum_mode{
ATOM_SS_CENTER_OR_DOWN_MODE_MASK = 0x01,
ATOM_SS_DOWN_SPREAD_MODE = 0x00,
ATOM_SS_CENTRE_SPREAD_MODE = 0x01,
ATOM_INT_OR_EXT_SS_MASK = 0x02,
ATOM_INTERNAL_SS_MASK = 0x00,
ATOM_EXTERNAL_SS_MASK = 0x02,
};
/* define panel bit per color */
enum atom_panel_bit_per_color{
PANEL_BPC_UNDEFINE =0x00,
PANEL_6BIT_PER_COLOR =0x01,
PANEL_8BIT_PER_COLOR =0x02,
PANEL_10BIT_PER_COLOR =0x03,
PANEL_12BIT_PER_COLOR =0x04,
PANEL_16BIT_PER_COLOR =0x05,
};
//ucVoltageType
enum atom_voltage_type
{
VOLTAGE_TYPE_VDDC = 1,
VOLTAGE_TYPE_MVDDC = 2,
VOLTAGE_TYPE_MVDDQ = 3,
VOLTAGE_TYPE_VDDCI = 4,
VOLTAGE_TYPE_VDDGFX = 5,
VOLTAGE_TYPE_PCC = 6,
VOLTAGE_TYPE_MVPP = 7,
VOLTAGE_TYPE_LEDDPM = 8,
VOLTAGE_TYPE_PCC_MVDD = 9,
VOLTAGE_TYPE_PCIE_VDDC = 10,
VOLTAGE_TYPE_PCIE_VDDR = 11,
VOLTAGE_TYPE_GENERIC_I2C_1 = 0x11,
VOLTAGE_TYPE_GENERIC_I2C_2 = 0x12,
VOLTAGE_TYPE_GENERIC_I2C_3 = 0x13,
VOLTAGE_TYPE_GENERIC_I2C_4 = 0x14,
VOLTAGE_TYPE_GENERIC_I2C_5 = 0x15,
VOLTAGE_TYPE_GENERIC_I2C_6 = 0x16,
VOLTAGE_TYPE_GENERIC_I2C_7 = 0x17,
VOLTAGE_TYPE_GENERIC_I2C_8 = 0x18,
VOLTAGE_TYPE_GENERIC_I2C_9 = 0x19,
VOLTAGE_TYPE_GENERIC_I2C_10 = 0x1A,
};
enum atom_dgpu_vram_type {
ATOM_DGPU_VRAM_TYPE_GDDR5 = 0x50,
ATOM_DGPU_VRAM_TYPE_HBM2 = 0x60,
ATOM_DGPU_VRAM_TYPE_HBM2E = 0x61,
ATOM_DGPU_VRAM_TYPE_GDDR6 = 0x70,
};
enum atom_dp_vs_preemph_def{
DP_VS_LEVEL0_PREEMPH_LEVEL0 = 0x00,
DP_VS_LEVEL1_PREEMPH_LEVEL0 = 0x01,
DP_VS_LEVEL2_PREEMPH_LEVEL0 = 0x02,
DP_VS_LEVEL3_PREEMPH_LEVEL0 = 0x03,
DP_VS_LEVEL0_PREEMPH_LEVEL1 = 0x08,
DP_VS_LEVEL1_PREEMPH_LEVEL1 = 0x09,
DP_VS_LEVEL2_PREEMPH_LEVEL1 = 0x0a,
DP_VS_LEVEL0_PREEMPH_LEVEL2 = 0x10,
DP_VS_LEVEL1_PREEMPH_LEVEL2 = 0x11,
DP_VS_LEVEL0_PREEMPH_LEVEL3 = 0x18,
};
#define BIOS_ATOM_PREFIX "ATOMBIOS"
#define BIOS_VERSION_PREFIX "ATOMBIOSBK-AMD"
#define BIOS_STRING_LENGTH 43
/*
enum atom_string_def{
asic_bus_type_pcie_string = "PCI_EXPRESS",
atom_fire_gl_string = "FGL",
atom_bios_string = "ATOM"
};
*/
#pragma pack(1) /* BIOS data must use byte aligment*/
enum atombios_image_offset{
OFFSET_TO_ATOM_ROM_HEADER_POINTER = 0x00000048,
OFFSET_TO_ATOM_ROM_IMAGE_SIZE = 0x00000002,
OFFSET_TO_ATOMBIOS_ASIC_BUS_MEM_TYPE = 0x94,
MAXSIZE_OF_ATOMBIOS_ASIC_BUS_MEM_TYPE = 20, /*including the terminator 0x0!*/
OFFSET_TO_GET_ATOMBIOS_NUMBER_OF_STRINGS = 0x2f,
OFFSET_TO_GET_ATOMBIOS_STRING_START = 0x6e,
OFFSET_TO_VBIOS_PART_NUMBER = 0x80,
OFFSET_TO_VBIOS_DATE = 0x50,
};
/****************************************************************************
* Common header for all tables (Data table, Command function).
* Every table pointed in _ATOM_MASTER_DATA_TABLE has this common header.
* And the pointer actually points to this header.
****************************************************************************/
struct atom_common_table_header
{
uint16_t structuresize;
uint8_t format_revision; //mainly used for a hw function, when the parser is not backward compatible
uint8_t content_revision; //change it when a data table has a structure change, or a hw function has a input/output parameter change
};
/****************************************************************************
* Structure stores the ROM header.
****************************************************************************/
struct atom_rom_header_v2_2
{
struct atom_common_table_header table_header;
uint8_t atom_bios_string[4]; //enum atom_string_def atom_bios_string; //Signature to distinguish between Atombios and non-atombios,
uint16_t bios_segment_address;
uint16_t protectedmodeoffset;
uint16_t configfilenameoffset;
uint16_t crc_block_offset;
uint16_t vbios_bootupmessageoffset;
uint16_t int10_offset;
uint16_t pcibusdevinitcode;
uint16_t iobaseaddress;
uint16_t subsystem_vendor_id;
uint16_t subsystem_id;
uint16_t pci_info_offset;
uint16_t masterhwfunction_offset; //Offest for SW to get all command function offsets, Don't change the position
uint16_t masterdatatable_offset; //Offest for SW to get all data table offsets, Don't change the position
uint16_t reserved;
uint32_t pspdirtableoffset;
};
/*==============================hw function portion======================================================================*/
/****************************************************************************
* Structures used in Command.mtb, each function name is not given here since those function could change from time to time
* The real functionality of each function is associated with the parameter structure version when defined
* For all internal cmd function definitions, please reference to atomstruct.h
****************************************************************************/
struct atom_master_list_of_command_functions_v2_1{
uint16_t asic_init; //Function
uint16_t cmd_function1; //used as an internal one
uint16_t cmd_function2; //used as an internal one
uint16_t cmd_function3; //used as an internal one
uint16_t digxencodercontrol; //Function
uint16_t cmd_function5; //used as an internal one
uint16_t cmd_function6; //used as an internal one
uint16_t cmd_function7; //used as an internal one
uint16_t cmd_function8; //used as an internal one
uint16_t cmd_function9; //used as an internal one
uint16_t setengineclock; //Function
uint16_t setmemoryclock; //Function
uint16_t setpixelclock; //Function
uint16_t enabledisppowergating; //Function
uint16_t cmd_function14; //used as an internal one
uint16_t cmd_function15; //used as an internal one
uint16_t cmd_function16; //used as an internal one
uint16_t cmd_function17; //used as an internal one
uint16_t cmd_function18; //used as an internal one
uint16_t cmd_function19; //used as an internal one
uint16_t cmd_function20; //used as an internal one
uint16_t cmd_function21; //used as an internal one
uint16_t cmd_function22; //used as an internal one
uint16_t cmd_function23; //used as an internal one
uint16_t cmd_function24; //used as an internal one
uint16_t cmd_function25; //used as an internal one
uint16_t cmd_function26; //used as an internal one
uint16_t cmd_function27; //used as an internal one
uint16_t cmd_function28; //used as an internal one
uint16_t cmd_function29; //used as an internal one
uint16_t cmd_function30; //used as an internal one
uint16_t cmd_function31; //used as an internal one
uint16_t cmd_function32; //used as an internal one
uint16_t cmd_function33; //used as an internal one
uint16_t blankcrtc; //Function
uint16_t enablecrtc; //Function
uint16_t cmd_function36; //used as an internal one
uint16_t cmd_function37; //used as an internal one
uint16_t cmd_function38; //used as an internal one
uint16_t cmd_function39; //used as an internal one
uint16_t cmd_function40; //used as an internal one
uint16_t getsmuclockinfo; //Function
uint16_t selectcrtc_source; //Function
uint16_t cmd_function43; //used as an internal one
uint16_t cmd_function44; //used as an internal one
uint16_t cmd_function45; //used as an internal one
uint16_t setdceclock; //Function
uint16_t getmemoryclock; //Function
uint16_t getengineclock; //Function
uint16_t setcrtc_usingdtdtiming; //Function
uint16_t externalencodercontrol; //Function
uint16_t cmd_function51; //used as an internal one
uint16_t cmd_function52; //used as an internal one
uint16_t cmd_function53; //used as an internal one
uint16_t processi2cchanneltransaction;//Function
uint16_t cmd_function55; //used as an internal one
uint16_t cmd_function56; //used as an internal one
uint16_t cmd_function57; //used as an internal one
uint16_t cmd_function58; //used as an internal one
uint16_t cmd_function59; //used as an internal one
uint16_t computegpuclockparam; //Function
uint16_t cmd_function61; //used as an internal one
uint16_t cmd_function62; //used as an internal one
uint16_t dynamicmemorysettings; //Function function
uint16_t memorytraining; //Function function
uint16_t cmd_function65; //used as an internal one
uint16_t cmd_function66; //used as an internal one
uint16_t setvoltage; //Function
uint16_t cmd_function68; //used as an internal one
uint16_t readefusevalue; //Function
uint16_t cmd_function70; //used as an internal one
uint16_t cmd_function71; //used as an internal one
uint16_t cmd_function72; //used as an internal one
uint16_t cmd_function73; //used as an internal one
uint16_t cmd_function74; //used as an internal one
uint16_t cmd_function75; //used as an internal one
uint16_t dig1transmittercontrol; //Function
uint16_t cmd_function77; //used as an internal one
uint16_t processauxchanneltransaction;//Function
uint16_t cmd_function79; //used as an internal one
uint16_t getvoltageinfo; //Function
};
struct atom_master_command_function_v2_1
{
struct atom_common_table_header table_header;
struct atom_master_list_of_command_functions_v2_1 listofcmdfunctions;
};
/****************************************************************************
* Structures used in every command function
****************************************************************************/
struct atom_function_attribute
{
uint16_t ws_in_bytes:8; //[7:0]=Size of workspace in Bytes (in multiple of a dword),
uint16_t ps_in_bytes:7; //[14:8]=Size of parameter space in Bytes (multiple of a dword),
uint16_t updated_by_util:1; //[15]=flag to indicate the function is updated by util
};
/****************************************************************************
* Common header for all hw functions.
* Every function pointed by _master_list_of_hw_function has this common header.
* And the pointer actually points to this header.
****************************************************************************/
struct atom_rom_hw_function_header
{
struct atom_common_table_header func_header;
struct atom_function_attribute func_attrib;
};
/*==============================sw data table portion======================================================================*/
/****************************************************************************
* Structures used in data.mtb, each data table name is not given here since those data table could change from time to time
* The real name of each table is given when its data structure version is defined
****************************************************************************/
struct atom_master_list_of_data_tables_v2_1{
uint16_t utilitypipeline; /* Offest for the utility to get parser info,Don't change this position!*/
uint16_t multimedia_info;
uint16_t smc_dpm_info;
uint16_t sw_datatable3;
uint16_t firmwareinfo; /* Shared by various SW components */
uint16_t sw_datatable5;
uint16_t lcd_info; /* Shared by various SW components */
uint16_t sw_datatable7;
uint16_t smu_info;
uint16_t sw_datatable9;
uint16_t sw_datatable10;
uint16_t vram_usagebyfirmware; /* Shared by various SW components */
uint16_t gpio_pin_lut; /* Shared by various SW components */
uint16_t sw_datatable13;
uint16_t gfx_info;
uint16_t powerplayinfo; /* Shared by various SW components */
uint16_t sw_datatable16;
uint16_t sw_datatable17;
uint16_t sw_datatable18;
uint16_t sw_datatable19;
uint16_t sw_datatable20;
uint16_t sw_datatable21;
uint16_t displayobjectinfo; /* Shared by various SW components */
uint16_t indirectioaccess; /* used as an internal one */
uint16_t umc_info; /* Shared by various SW components */
uint16_t sw_datatable25;
uint16_t sw_datatable26;
uint16_t dce_info; /* Shared by various SW components */
uint16_t vram_info; /* Shared by various SW components */
uint16_t sw_datatable29;
uint16_t integratedsysteminfo; /* Shared by various SW components */
uint16_t asic_profiling_info; /* Shared by various SW components */
uint16_t voltageobject_info; /* shared by various SW components */
uint16_t sw_datatable33;
uint16_t sw_datatable34;
};
struct atom_master_data_table_v2_1
{
struct atom_common_table_header table_header;
struct atom_master_list_of_data_tables_v2_1 listOfdatatables;
};
struct atom_dtd_format
{
uint16_t pixclk;
uint16_t h_active;
uint16_t h_blanking_time;
uint16_t v_active;
uint16_t v_blanking_time;
uint16_t h_sync_offset;
uint16_t h_sync_width;
uint16_t v_sync_offset;
uint16_t v_syncwidth;
uint16_t reserved;
uint16_t reserved0;
uint8_t h_border;
uint8_t v_border;
uint16_t miscinfo;
uint8_t atom_mode_id;
uint8_t refreshrate;
};
/* atom_dtd_format.modemiscinfo defintion */
enum atom_dtd_format_modemiscinfo{
ATOM_HSYNC_POLARITY = 0x0002,
ATOM_VSYNC_POLARITY = 0x0004,
ATOM_H_REPLICATIONBY2 = 0x0010,
ATOM_V_REPLICATIONBY2 = 0x0020,
ATOM_INTERLACE = 0x0080,
ATOM_COMPOSITESYNC = 0x0040,
};
/* utilitypipeline
* when format_revision==1 && content_revision==1, then this an info table for atomworks to use during debug session, no structure is associated with it.
* the location of it can't change
*/
/*
***************************************************************************
Data Table firmwareinfo structure
***************************************************************************
*/
struct atom_firmware_info_v3_1
{
struct atom_common_table_header table_header;
uint32_t firmware_revision;
uint32_t bootup_sclk_in10khz;
uint32_t bootup_mclk_in10khz;
uint32_t firmware_capability; // enum atombios_firmware_capability
uint32_t main_call_parser_entry; /* direct address of main parser call in VBIOS binary. */
uint32_t bios_scratch_reg_startaddr; // 1st bios scratch register dword address
uint16_t bootup_vddc_mv;
uint16_t bootup_vddci_mv;
uint16_t bootup_mvddc_mv;
uint16_t bootup_vddgfx_mv;
uint8_t mem_module_id;
uint8_t coolingsolution_id; /*0: Air cooling; 1: Liquid cooling ... */
uint8_t reserved1[2];
uint32_t mc_baseaddr_high;
uint32_t mc_baseaddr_low;
uint32_t reserved2[6];
};
/* Total 32bit cap indication */
enum atombios_firmware_capability
{
ATOM_FIRMWARE_CAP_FIRMWARE_POSTED = 0x00000001,
ATOM_FIRMWARE_CAP_GPU_VIRTUALIZATION = 0x00000002,
ATOM_FIRMWARE_CAP_WMI_SUPPORT = 0x00000040,
ATOM_FIRMWARE_CAP_HWEMU_ENABLE = 0x00000080,
ATOM_FIRMWARE_CAP_HWEMU_UMC_CFG = 0x00000100,
ATOM_FIRMWARE_CAP_SRAM_ECC = 0x00000200,
ATOM_FIRMWARE_CAP_ENABLE_2STAGE_BIST_TRAINING = 0x00000400,
ATOM_FIRMWARE_CAP_ENABLE_2ND_USB20PORT = 0x0008000,
ATOM_FIRMWARE_CAP_DYNAMIC_BOOT_CFG_ENABLE = 0x0020000,
};
enum atom_cooling_solution_id{
AIR_COOLING = 0x00,
LIQUID_COOLING = 0x01
};
struct atom_firmware_info_v3_2 {
struct atom_common_table_header table_header;
uint32_t firmware_revision;
uint32_t bootup_sclk_in10khz;
uint32_t bootup_mclk_in10khz;
uint32_t firmware_capability; // enum atombios_firmware_capability
uint32_t main_call_parser_entry; /* direct address of main parser call in VBIOS binary. */
uint32_t bios_scratch_reg_startaddr; // 1st bios scratch register dword address
uint16_t bootup_vddc_mv;
uint16_t bootup_vddci_mv;
uint16_t bootup_mvddc_mv;
uint16_t bootup_vddgfx_mv;
uint8_t mem_module_id;
uint8_t coolingsolution_id; /*0: Air cooling; 1: Liquid cooling ... */
uint8_t reserved1[2];
uint32_t mc_baseaddr_high;
uint32_t mc_baseaddr_low;
uint8_t board_i2c_feature_id; // enum of atom_board_i2c_feature_id_def
uint8_t board_i2c_feature_gpio_id; // i2c id find in gpio_lut data table gpio_id
uint8_t board_i2c_feature_slave_addr;
uint8_t reserved3;
uint16_t bootup_mvddq_mv;
uint16_t bootup_mvpp_mv;
uint32_t zfbstartaddrin16mb;
uint32_t reserved2[3];
};
struct atom_firmware_info_v3_3
{
struct atom_common_table_header table_header;
uint32_t firmware_revision;
uint32_t bootup_sclk_in10khz;
uint32_t bootup_mclk_in10khz;
uint32_t firmware_capability; // enum atombios_firmware_capability
uint32_t main_call_parser_entry; /* direct address of main parser call in VBIOS binary. */
uint32_t bios_scratch_reg_startaddr; // 1st bios scratch register dword address
uint16_t bootup_vddc_mv;
uint16_t bootup_vddci_mv;
uint16_t bootup_mvddc_mv;
uint16_t bootup_vddgfx_mv;
uint8_t mem_module_id;
uint8_t coolingsolution_id; /*0: Air cooling; 1: Liquid cooling ... */
uint8_t reserved1[2];
uint32_t mc_baseaddr_high;
uint32_t mc_baseaddr_low;
uint8_t board_i2c_feature_id; // enum of atom_board_i2c_feature_id_def
uint8_t board_i2c_feature_gpio_id; // i2c id find in gpio_lut data table gpio_id
uint8_t board_i2c_feature_slave_addr;
uint8_t reserved3;
uint16_t bootup_mvddq_mv;
uint16_t bootup_mvpp_mv;
uint32_t zfbstartaddrin16mb;
uint32_t pplib_pptable_id; // if pplib_pptable_id!=0, pplib get powerplay table inside driver instead of from VBIOS
uint32_t reserved2[2];
};
struct atom_firmware_info_v3_4 {
struct atom_common_table_header table_header;
uint32_t firmware_revision;
uint32_t bootup_sclk_in10khz;
uint32_t bootup_mclk_in10khz;
uint32_t firmware_capability; // enum atombios_firmware_capability
uint32_t main_call_parser_entry; /* direct address of main parser call in VBIOS binary. */
uint32_t bios_scratch_reg_startaddr; // 1st bios scratch register dword address
uint16_t bootup_vddc_mv;
uint16_t bootup_vddci_mv;
uint16_t bootup_mvddc_mv;
uint16_t bootup_vddgfx_mv;
uint8_t mem_module_id;
uint8_t coolingsolution_id; /*0: Air cooling; 1: Liquid cooling ... */
uint8_t reserved1[2];
uint32_t mc_baseaddr_high;
uint32_t mc_baseaddr_low;
uint8_t board_i2c_feature_id; // enum of atom_board_i2c_feature_id_def
uint8_t board_i2c_feature_gpio_id; // i2c id find in gpio_lut data table gpio_id
uint8_t board_i2c_feature_slave_addr;
uint8_t ras_rom_i2c_slave_addr;
uint16_t bootup_mvddq_mv;
uint16_t bootup_mvpp_mv;
uint32_t zfbstartaddrin16mb;
uint32_t pplib_pptable_id; // if pplib_pptable_id!=0, pplib get powerplay table inside driver instead of from VBIOS
uint32_t mvdd_ratio; // mvdd_raio = (real mvdd in power rail)*1000/(mvdd_output_from_svi2)
uint16_t hw_bootup_vddgfx_mv; // hw default vddgfx voltage level decide by board strap
uint16_t hw_bootup_vddc_mv; // hw default vddc voltage level decide by board strap
uint16_t hw_bootup_mvddc_mv; // hw default mvddc voltage level decide by board strap
uint16_t hw_bootup_vddci_mv; // hw default vddci voltage level decide by board strap
uint32_t maco_pwrlimit_mw; // bomaco mode power limit in unit of m-watt
uint32_t usb_pwrlimit_mw; // power limit when USB is enable in unit of m-watt
uint32_t fw_reserved_size_in_kb; // VBIOS reserved extra fw size in unit of kb.
uint32_t pspbl_init_done_reg_addr;
uint32_t pspbl_init_done_value;
uint32_t pspbl_init_done_check_timeout; // time out in unit of us when polling pspbl init done
uint32_t reserved[2];
};
/*
***************************************************************************
Data Table lcd_info structure
***************************************************************************
*/
struct lcd_info_v2_1
{
struct atom_common_table_header table_header;
struct atom_dtd_format lcd_timing;
uint16_t backlight_pwm;
uint16_t special_handle_cap;
uint16_t panel_misc;
uint16_t lvds_max_slink_pclk;
uint16_t lvds_ss_percentage;
uint16_t lvds_ss_rate_10hz;
uint8_t pwr_on_digon_to_de; /*all pwr sequence numbers below are in uint of 4ms*/
uint8_t pwr_on_de_to_vary_bl;
uint8_t pwr_down_vary_bloff_to_de;
uint8_t pwr_down_de_to_digoff;
uint8_t pwr_off_delay;
uint8_t pwr_on_vary_bl_to_blon;
uint8_t pwr_down_bloff_to_vary_bloff;
uint8_t panel_bpc;
uint8_t dpcd_edp_config_cap;
uint8_t dpcd_max_link_rate;
uint8_t dpcd_max_lane_count;
uint8_t dpcd_max_downspread;
uint8_t min_allowed_bl_level;
uint8_t max_allowed_bl_level;
uint8_t bootup_bl_level;
uint8_t dplvdsrxid;
uint32_t reserved1[8];
};
/* lcd_info_v2_1.panel_misc defintion */
enum atom_lcd_info_panel_misc{
ATOM_PANEL_MISC_FPDI =0x0002,
};
//uceDPToLVDSRxId
enum atom_lcd_info_dptolvds_rx_id
{
eDP_TO_LVDS_RX_DISABLE = 0x00, // no eDP->LVDS translator chip
eDP_TO_LVDS_COMMON_ID = 0x01, // common eDP->LVDS translator chip without AMD SW init
eDP_TO_LVDS_REALTEK_ID = 0x02, // Realtek tansaltor which require AMD SW init
};
/*
***************************************************************************
Data Table gpio_pin_lut structure
***************************************************************************
*/
struct atom_gpio_pin_assignment
{
uint32_t data_a_reg_index;
uint8_t gpio_bitshift;
uint8_t gpio_mask_bitshift;
uint8_t gpio_id;
uint8_t reserved;
};
/* atom_gpio_pin_assignment.gpio_id definition */
enum atom_gpio_pin_assignment_gpio_id {
I2C_HW_LANE_MUX =0x0f, /* only valid when bit7=1 */
I2C_HW_ENGINE_ID_MASK =0x70, /* only valid when bit7=1 */
I2C_HW_CAP =0x80, /*only when the I2C_HW_CAP is set, the pin ID is assigned to an I2C pin pair, otherwise, it's an generic GPIO pin */
/* gpio_id pre-define id for multiple usage */
/* GPIO use to control PCIE_VDDC in certain SLT board */
PCIE_VDDC_CONTROL_GPIO_PINID = 56,
/* if PP_AC_DC_SWITCH_GPIO_PINID in Gpio_Pin_LutTable, AC/DC swithing feature is enable */
PP_AC_DC_SWITCH_GPIO_PINID = 60,
/* VDDC_REGULATOR_VRHOT_GPIO_PINID in Gpio_Pin_LutTable, VRHot feature is enable */
VDDC_VRHOT_GPIO_PINID = 61,
/*if VDDC_PCC_GPIO_PINID in GPIO_LUTable, Peak Current Control feature is enabled */
VDDC_PCC_GPIO_PINID = 62,
/* Only used on certain SLT/PA board to allow utility to cut Efuse. */
EFUSE_CUT_ENABLE_GPIO_PINID = 63,
/* ucGPIO=DRAM_SELF_REFRESH_GPIO_PIND uses for memory self refresh (ucGPIO=0, DRAM self-refresh; ucGPIO= */
DRAM_SELF_REFRESH_GPIO_PINID = 64,
/* Thermal interrupt output->system thermal chip GPIO pin */
THERMAL_INT_OUTPUT_GPIO_PINID =65,
};
struct atom_gpio_pin_lut_v2_1
{
struct atom_common_table_header table_header;
/*the real number of this included in the structure is calcualted by using the (whole structure size - the header size)/size of atom_gpio_pin_lut */
struct atom_gpio_pin_assignment gpio_pin[8];
};
/*
* VBIOS/PRE-OS always reserve a FB region at the top of frame buffer. driver should not write
* access that region. driver can allocate their own reservation region as long as it does not
* overlap firwmare's reservation region.
* if (pre-NV1X) atom data table firmwareInfoTable version < 3.3:
* in this case, atom data table vram_usagebyfirmwareTable version always <= 2.1
* if VBIOS/UEFI GOP is posted:
* VBIOS/UEFIGOP update used_by_firmware_in_kb = total reserved size by VBIOS
* update start_address_in_kb = total_mem_size_in_kb - used_by_firmware_in_kb;
* ( total_mem_size_in_kb = reg(CONFIG_MEMSIZE)<<10)
* driver can allocate driver reservation region under firmware reservation,
* used_by_driver_in_kb = driver reservation size
* driver reservation start address = (start_address_in_kb - used_by_driver_in_kb)
* Comment1[hchan]: There is only one reservation at the beginning of the FB reserved by
* host driver. Host driver would overwrite the table with the following
* used_by_firmware_in_kb = total reserved size for pf-vf info exchange and
* set SRIOV_MSG_SHARE_RESERVATION mask start_address_in_kb = 0
* else there is no VBIOS reservation region:
* driver must allocate driver reservation region at top of FB.
* driver set used_by_driver_in_kb = driver reservation size
* driver reservation start address = (total_mem_size_in_kb - used_by_driver_in_kb)
* same as Comment1
* else (NV1X and after):
* if VBIOS/UEFI GOP is posted:
* VBIOS/UEFIGOP update:
* used_by_firmware_in_kb = atom_firmware_Info_v3_3.fw_reserved_size_in_kb;
* start_address_in_kb = total_mem_size_in_kb - used_by_firmware_in_kb;
* (total_mem_size_in_kb = reg(CONFIG_MEMSIZE)<<10)
* if vram_usagebyfirmwareTable version <= 2.1:
* driver can allocate driver reservation region under firmware reservation,
* driver set used_by_driver_in_kb = driver reservation size
* driver reservation start address = start_address_in_kb - used_by_driver_in_kb
* same as Comment1
* else driver can:
* allocate it reservation any place as long as it does overlap pre-OS FW reservation area
* set used_by_driver_region0_in_kb = driver reservation size
* set driver_region0_start_address_in_kb = driver reservation region start address
* Comment2[hchan]: Host driver can set used_by_firmware_in_kb and start_address_in_kb to
* zero as the reservation for VF as it doesnt exist. And Host driver should also
* update atom_firmware_Info table to remove the same VBIOS reservation as well.
*/
struct vram_usagebyfirmware_v2_1
{
struct atom_common_table_header table_header;
uint32_t start_address_in_kb;
uint16_t used_by_firmware_in_kb;
uint16_t used_by_driver_in_kb;
};
struct vram_usagebyfirmware_v2_2 {
struct atom_common_table_header table_header;
uint32_t fw_region_start_address_in_kb;
uint16_t used_by_firmware_in_kb;
uint16_t reserved;
uint32_t driver_region0_start_address_in_kb;
uint32_t used_by_driver_region0_in_kb;
uint32_t reserved32[7];
};
/*
***************************************************************************
Data Table displayobjectinfo structure
***************************************************************************
*/
enum atom_object_record_type_id {
ATOM_I2C_RECORD_TYPE = 1,
ATOM_HPD_INT_RECORD_TYPE = 2,
ATOM_CONNECTOR_CAP_RECORD_TYPE = 3,
ATOM_CONNECTOR_SPEED_UPTO = 4,
ATOM_OBJECT_GPIO_CNTL_RECORD_TYPE = 9,
ATOM_CONNECTOR_HPDPIN_LUT_RECORD_TYPE = 16,
ATOM_CONNECTOR_AUXDDC_LUT_RECORD_TYPE = 17,
ATOM_ENCODER_CAP_RECORD_TYPE = 20,
ATOM_BRACKET_LAYOUT_RECORD_TYPE = 21,
ATOM_CONNECTOR_FORCED_TMDS_CAP_RECORD_TYPE = 22,
ATOM_DISP_CONNECTOR_CAPS_RECORD_TYPE = 23,
ATOM_BRACKET_LAYOUT_V2_RECORD_TYPE = 25,
ATOM_RECORD_END_TYPE = 0xFF,
};
struct atom_common_record_header
{
uint8_t record_type; //An emun to indicate the record type
uint8_t record_size; //The size of the whole record in byte
};
struct atom_i2c_record
{
struct atom_common_record_header record_header; //record_type = ATOM_I2C_RECORD_TYPE
uint8_t i2c_id;
uint8_t i2c_slave_addr; //The slave address, it's 0 when the record is attached to connector for DDC
};
struct atom_hpd_int_record
{
struct atom_common_record_header record_header; //record_type = ATOM_HPD_INT_RECORD_TYPE
uint8_t pin_id; //Corresponding block in GPIO_PIN_INFO table gives the pin info
uint8_t plugin_pin_state;
};
struct atom_connector_caps_record {
struct atom_common_record_header
record_header; //record_type = ATOM_CONN_CAP_RECORD_TYPE
uint16_t connector_caps; //01b if internal display is checked; 10b if internal BL is checked; 0 of Not
};
struct atom_connector_speed_record {
struct atom_common_record_header
record_header; //record_type = ATOM_CONN_SPEED_UPTO
uint32_t connector_max_speed; // connector Max speed attribute, it sets 8100 in Mhz when DP connector @8.1Ghz.
uint16_t reserved;
};
// Bit maps for ATOM_ENCODER_CAP_RECORD.usEncoderCap
enum atom_encoder_caps_def
{
ATOM_ENCODER_CAP_RECORD_HBR2 =0x01, // DP1.2 HBR2 is supported by HW encoder, it is retired in NI. the real meaning from SI is MST_EN
ATOM_ENCODER_CAP_RECORD_MST_EN =0x01, // from SI, this bit means DP MST is enable or not.
ATOM_ENCODER_CAP_RECORD_HBR2_EN =0x02, // DP1.2 HBR2 setting is qualified and HBR2 can be enabled
ATOM_ENCODER_CAP_RECORD_HDMI6Gbps_EN =0x04, // HDMI2.0 6Gbps enable or not.
ATOM_ENCODER_CAP_RECORD_HBR3_EN =0x08, // DP1.3 HBR3 is supported by board.
ATOM_ENCODER_CAP_RECORD_DP2 =0x10, // DP2 is supported by ASIC/board.
ATOM_ENCODER_CAP_RECORD_UHBR10_EN =0x20, // DP2.0 UHBR10 settings is supported by board
ATOM_ENCODER_CAP_RECORD_UHBR13_5_EN =0x40, // DP2.0 UHBR13.5 settings is supported by board
ATOM_ENCODER_CAP_RECORD_UHBR20_EN =0x80, // DP2.0 UHBR20 settings is supported by board
ATOM_ENCODER_CAP_RECORD_USB_C_TYPE =0x100, // the DP connector is a USB-C type.
};
struct atom_encoder_caps_record
{
struct atom_common_record_header record_header; //record_type = ATOM_ENCODER_CAP_RECORD_TYPE
uint32_t encodercaps;
};
enum atom_connector_caps_def
{
ATOM_CONNECTOR_CAP_INTERNAL_DISPLAY = 0x01, //a cap bit to indicate that this non-embedded display connector is an internal display
ATOM_CONNECTOR_CAP_INTERNAL_DISPLAY_BL = 0x02, //a cap bit to indicate that this internal display requires BL control from GPU, refers to lcd_info for BL PWM freq
};
struct atom_disp_connector_caps_record
{
struct atom_common_record_header record_header;
uint32_t connectcaps;
};
//The following generic object gpio pin control record type will replace JTAG_RECORD/FPGA_CONTROL_RECORD/DVI_EXT_INPUT_RECORD above gradually
struct atom_gpio_pin_control_pair
{
uint8_t gpio_id; // GPIO_ID, find the corresponding ID in GPIO_LUT table
uint8_t gpio_pinstate; // Pin state showing how to set-up the pin
};
struct atom_object_gpio_cntl_record
{
struct atom_common_record_header record_header;
uint8_t flag; // Future expnadibility
uint8_t number_of_pins; // Number of GPIO pins used to control the object
struct atom_gpio_pin_control_pair gpio[1]; // the real gpio pin pair determined by number of pins ucNumberOfPins
};
//Definitions for GPIO pin state
enum atom_gpio_pin_control_pinstate_def
{
GPIO_PIN_TYPE_INPUT = 0x00,
GPIO_PIN_TYPE_OUTPUT = 0x10,
GPIO_PIN_TYPE_HW_CONTROL = 0x20,
//For GPIO_PIN_TYPE_OUTPUT the following is defined
GPIO_PIN_OUTPUT_STATE_MASK = 0x01,
GPIO_PIN_OUTPUT_STATE_SHIFT = 0,
GPIO_PIN_STATE_ACTIVE_LOW = 0x0,
GPIO_PIN_STATE_ACTIVE_HIGH = 0x1,
};
// Indexes to GPIO array in GLSync record
// GLSync record is for Frame Lock/Gen Lock feature.
enum atom_glsync_record_gpio_index_def
{
ATOM_GPIO_INDEX_GLSYNC_REFCLK = 0,
ATOM_GPIO_INDEX_GLSYNC_HSYNC = 1,
ATOM_GPIO_INDEX_GLSYNC_VSYNC = 2,
ATOM_GPIO_INDEX_GLSYNC_SWAP_REQ = 3,
ATOM_GPIO_INDEX_GLSYNC_SWAP_GNT = 4,
ATOM_GPIO_INDEX_GLSYNC_INTERRUPT = 5,
ATOM_GPIO_INDEX_GLSYNC_V_RESET = 6,
ATOM_GPIO_INDEX_GLSYNC_SWAP_CNTL = 7,
ATOM_GPIO_INDEX_GLSYNC_SWAP_SEL = 8,
ATOM_GPIO_INDEX_GLSYNC_MAX = 9,
};
struct atom_connector_hpdpin_lut_record //record for ATOM_CONNECTOR_HPDPIN_LUT_RECORD_TYPE
{
struct atom_common_record_header record_header;
uint8_t hpd_pin_map[8];
};
struct atom_connector_auxddc_lut_record //record for ATOM_CONNECTOR_AUXDDC_LUT_RECORD_TYPE
{
struct atom_common_record_header record_header;
uint8_t aux_ddc_map[8];
};
struct atom_connector_forced_tmds_cap_record
{
struct atom_common_record_header record_header;
// override TMDS capability on this connector when it operate in TMDS mode. usMaxTmdsClkRate = max TMDS Clock in Mhz/2.5
uint8_t maxtmdsclkrate_in2_5mhz;
uint8_t reserved;
};
struct atom_connector_layout_info
{
uint16_t connectorobjid;
uint8_t connector_type;
uint8_t position;
};
// define ATOM_CONNECTOR_LAYOUT_INFO.ucConnectorType to describe the display connector size
enum atom_connector_layout_info_connector_type_def
{
CONNECTOR_TYPE_DVI_D = 1,
CONNECTOR_TYPE_HDMI = 4,
CONNECTOR_TYPE_DISPLAY_PORT = 5,
CONNECTOR_TYPE_MINI_DISPLAY_PORT = 6,
};
struct atom_bracket_layout_record
{
struct atom_common_record_header record_header;
uint8_t bracketlen;
uint8_t bracketwidth;
uint8_t conn_num;
uint8_t reserved;
struct atom_connector_layout_info conn_info[1];
};
struct atom_bracket_layout_record_v2 {
struct atom_common_record_header
record_header; //record_type = ATOM_BRACKET_LAYOUT_RECORD_TYPE
uint8_t bracketlen; //Bracket Length in mm
uint8_t bracketwidth; //Bracket Width in mm
uint8_t conn_num; //Connector numbering
uint8_t mini_type; //Mini Type (0 = Normal; 1 = Mini)
uint8_t reserved1;
uint8_t reserved2;
};
enum atom_connector_layout_info_mini_type_def {
MINI_TYPE_NORMAL = 0,
MINI_TYPE_MINI = 1,
};
enum atom_display_device_tag_def{
ATOM_DISPLAY_LCD1_SUPPORT = 0x0002, //an embedded display is either an LVDS or eDP signal type of display
ATOM_DISPLAY_LCD2_SUPPORT = 0x0020, //second edp device tag 0x0020 for backward compability
ATOM_DISPLAY_DFP1_SUPPORT = 0x0008,
ATOM_DISPLAY_DFP2_SUPPORT = 0x0080,
ATOM_DISPLAY_DFP3_SUPPORT = 0x0200,
ATOM_DISPLAY_DFP4_SUPPORT = 0x0400,
ATOM_DISPLAY_DFP5_SUPPORT = 0x0800,
ATOM_DISPLAY_DFP6_SUPPORT = 0x0040,
ATOM_DISPLAY_DFPx_SUPPORT = 0x0ec8,
};
struct atom_display_object_path_v2
{
uint16_t display_objid; //Connector Object ID or Misc Object ID
uint16_t disp_recordoffset;
uint16_t encoderobjid; //first encoder closer to the connector, could be either an external or intenal encoder
uint16_t extencoderobjid; //2nd encoder after the first encoder, from the connector point of view;
uint16_t encoder_recordoffset;
uint16_t extencoder_recordoffset;
uint16_t device_tag; //a supported device vector, each display path starts with this.the paths are enumerated in the way of priority, a path appears first
uint8_t priority_id;
uint8_t reserved;
};
struct atom_display_object_path_v3 {
uint16_t display_objid; //Connector Object ID or Misc Object ID
uint16_t disp_recordoffset;
uint16_t encoderobjid; //first encoder closer to the connector, could be either an external or intenal encoder
uint16_t reserved1; //only on USBC case, otherwise always = 0
uint16_t reserved2; //reserved and always = 0
uint16_t reserved3; //reserved and always = 0
//a supported device vector, each display path starts with this.the paths are enumerated in the way of priority,
//a path appears first
uint16_t device_tag;
uint16_t reserved4; //reserved and always = 0
};
struct display_object_info_table_v1_4
{
struct atom_common_table_header table_header;
uint16_t supporteddevices;
uint8_t number_of_path;
uint8_t reserved;
struct atom_display_object_path_v2 display_path[8]; //the real number of this included in the structure is calculated by using the (whole structure size - the header size- number_of_path)/size of atom_display_object_path
};
struct display_object_info_table_v1_5 {
struct atom_common_table_header table_header;
uint16_t supporteddevices;
uint8_t number_of_path;
uint8_t reserved;
// the real number of this included in the structure is calculated by using the
// (whole structure size - the header size- number_of_path)/size of atom_display_object_path
struct atom_display_object_path_v3 display_path[8];
};
/*
***************************************************************************
Data Table dce_info structure
***************************************************************************
*/
struct atom_display_controller_info_v4_1
{
struct atom_common_table_header table_header;
uint32_t display_caps;
uint32_t bootup_dispclk_10khz;
uint16_t dce_refclk_10khz;
uint16_t i2c_engine_refclk_10khz;
uint16_t dvi_ss_percentage; // in unit of 0.001%
uint16_t dvi_ss_rate_10hz;
uint16_t hdmi_ss_percentage; // in unit of 0.001%
uint16_t hdmi_ss_rate_10hz;
uint16_t dp_ss_percentage; // in unit of 0.001%
uint16_t dp_ss_rate_10hz;
uint8_t dvi_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t hdmi_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t dp_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t ss_reserved;
uint8_t hardcode_mode_num; // a hardcode mode number defined in StandardVESA_TimingTable when a CRT or DFP EDID is not available
uint8_t reserved1[3];
uint16_t dpphy_refclk_10khz;
uint16_t reserved2;
uint8_t dceip_min_ver;
uint8_t dceip_max_ver;
uint8_t max_disp_pipe_num;
uint8_t max_vbios_active_disp_pipe_num;
uint8_t max_ppll_num;
uint8_t max_disp_phy_num;
uint8_t max_aux_pairs;
uint8_t remotedisplayconfig;
uint8_t reserved3[8];
};
struct atom_display_controller_info_v4_2
{
struct atom_common_table_header table_header;
uint32_t display_caps;
uint32_t bootup_dispclk_10khz;
uint16_t dce_refclk_10khz;
uint16_t i2c_engine_refclk_10khz;
uint16_t dvi_ss_percentage; // in unit of 0.001%
uint16_t dvi_ss_rate_10hz;
uint16_t hdmi_ss_percentage; // in unit of 0.001%
uint16_t hdmi_ss_rate_10hz;
uint16_t dp_ss_percentage; // in unit of 0.001%
uint16_t dp_ss_rate_10hz;
uint8_t dvi_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t hdmi_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t dp_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t ss_reserved;
uint8_t dfp_hardcode_mode_num; // DFP hardcode mode number defined in StandardVESA_TimingTable when EDID is not available
uint8_t dfp_hardcode_refreshrate;// DFP hardcode mode refreshrate defined in StandardVESA_TimingTable when EDID is not available
uint8_t vga_hardcode_mode_num; // VGA hardcode mode number defined in StandardVESA_TimingTable when EDID is not avablable
uint8_t vga_hardcode_refreshrate;// VGA hardcode mode number defined in StandardVESA_TimingTable when EDID is not avablable
uint16_t dpphy_refclk_10khz;
uint16_t reserved2;
uint8_t dcnip_min_ver;
uint8_t dcnip_max_ver;
uint8_t max_disp_pipe_num;
uint8_t max_vbios_active_disp_pipe_num;
uint8_t max_ppll_num;
uint8_t max_disp_phy_num;
uint8_t max_aux_pairs;
uint8_t remotedisplayconfig;
uint8_t reserved3[8];
};
struct atom_display_controller_info_v4_3
{
struct atom_common_table_header table_header;
uint32_t display_caps;
uint32_t bootup_dispclk_10khz;
uint16_t dce_refclk_10khz;
uint16_t i2c_engine_refclk_10khz;
uint16_t dvi_ss_percentage; // in unit of 0.001%
uint16_t dvi_ss_rate_10hz;
uint16_t hdmi_ss_percentage; // in unit of 0.001%
uint16_t hdmi_ss_rate_10hz;
uint16_t dp_ss_percentage; // in unit of 0.001%
uint16_t dp_ss_rate_10hz;
uint8_t dvi_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t hdmi_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t dp_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t ss_reserved;
uint8_t dfp_hardcode_mode_num; // DFP hardcode mode number defined in StandardVESA_TimingTable when EDID is not available
uint8_t dfp_hardcode_refreshrate;// DFP hardcode mode refreshrate defined in StandardVESA_TimingTable when EDID is not available
uint8_t vga_hardcode_mode_num; // VGA hardcode mode number defined in StandardVESA_TimingTable when EDID is not avablable
uint8_t vga_hardcode_refreshrate;// VGA hardcode mode number defined in StandardVESA_TimingTable when EDID is not avablable
uint16_t dpphy_refclk_10khz;
uint16_t reserved2;
uint8_t dcnip_min_ver;
uint8_t dcnip_max_ver;
uint8_t max_disp_pipe_num;
uint8_t max_vbios_active_disp_pipe_num;
uint8_t max_ppll_num;
uint8_t max_disp_phy_num;
uint8_t max_aux_pairs;
uint8_t remotedisplayconfig;
uint8_t reserved3[8];
};
struct atom_display_controller_info_v4_4 {
struct atom_common_table_header table_header;
uint32_t display_caps;
uint32_t bootup_dispclk_10khz;
uint16_t dce_refclk_10khz;
uint16_t i2c_engine_refclk_10khz;
uint16_t dvi_ss_percentage; // in unit of 0.001%
uint16_t dvi_ss_rate_10hz;
uint16_t hdmi_ss_percentage; // in unit of 0.001%
uint16_t hdmi_ss_rate_10hz;
uint16_t dp_ss_percentage; // in unit of 0.001%
uint16_t dp_ss_rate_10hz;
uint8_t dvi_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t hdmi_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t dp_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t ss_reserved;
uint8_t dfp_hardcode_mode_num; // DFP hardcode mode number defined in StandardVESA_TimingTable when EDID is not available
uint8_t dfp_hardcode_refreshrate;// DFP hardcode mode refreshrate defined in StandardVESA_TimingTable when EDID is not available
uint8_t vga_hardcode_mode_num; // VGA hardcode mode number defined in StandardVESA_TimingTable when EDID is not avablable
uint8_t vga_hardcode_refreshrate;// VGA hardcode mode number defined in StandardVESA_TimingTable when EDID is not avablable
uint16_t dpphy_refclk_10khz;
uint16_t hw_chip_id;
uint8_t dcnip_min_ver;
uint8_t dcnip_max_ver;
uint8_t max_disp_pipe_num;
uint8_t max_vbios_active_disp_pipum;
uint8_t max_ppll_num;
uint8_t max_disp_phy_num;
uint8_t max_aux_pairs;
uint8_t remotedisplayconfig;
uint32_t dispclk_pll_vco_freq;
uint32_t dp_ref_clk_freq;
uint32_t max_mclk_chg_lat; // Worst case blackout duration for a memory clock frequency (p-state) change, units of 100s of ns (0.1 us)
uint32_t max_sr_exit_lat; // Worst case memory self refresh exit time, units of 100ns of ns (0.1us)
uint32_t max_sr_enter_exit_lat; // Worst case memory self refresh entry followed by immediate exit time, units of 100ns of ns (0.1us)
uint16_t dc_golden_table_offset; // point of struct of atom_dc_golden_table_vxx
uint16_t dc_golden_table_ver;
uint32_t reserved3[3];
};
struct atom_dc_golden_table_v1
{
uint32_t aux_dphy_rx_control0_val;
uint32_t aux_dphy_tx_control_val;
uint32_t aux_dphy_rx_control1_val;
uint32_t dc_gpio_aux_ctrl_0_val;
uint32_t dc_gpio_aux_ctrl_1_val;
uint32_t dc_gpio_aux_ctrl_2_val;
uint32_t dc_gpio_aux_ctrl_3_val;
uint32_t dc_gpio_aux_ctrl_4_val;
uint32_t dc_gpio_aux_ctrl_5_val;
uint32_t reserved[23];
};
enum dce_info_caps_def {
// only for VBIOS
DCE_INFO_CAPS_FORCE_DISPDEV_CONNECTED = 0x02,
// only for VBIOS
DCE_INFO_CAPS_DISABLE_DFP_DP_HBR2 = 0x04,
// only for VBIOS
DCE_INFO_CAPS_ENABLE_INTERLAC_TIMING = 0x08,
// only for VBIOS
DCE_INFO_CAPS_LTTPR_SUPPORT_ENABLE = 0x20,
DCE_INFO_CAPS_VBIOS_LTTPR_TRANSPARENT_ENABLE = 0x40,
};
struct atom_display_controller_info_v4_5
{
struct atom_common_table_header table_header;
uint32_t display_caps;
uint32_t bootup_dispclk_10khz;
uint16_t dce_refclk_10khz;
uint16_t i2c_engine_refclk_10khz;
uint16_t dvi_ss_percentage; // in unit of 0.001%
uint16_t dvi_ss_rate_10hz;
uint16_t hdmi_ss_percentage; // in unit of 0.001%
uint16_t hdmi_ss_rate_10hz;
uint16_t dp_ss_percentage; // in unit of 0.001%
uint16_t dp_ss_rate_10hz;
uint8_t dvi_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t hdmi_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t dp_ss_mode; // enum of atom_spread_spectrum_mode
uint8_t ss_reserved;
// DFP hardcode mode number defined in StandardVESA_TimingTable when EDID is not available
uint8_t dfp_hardcode_mode_num;
// DFP hardcode mode refreshrate defined in StandardVESA_TimingTable when EDID is not available
uint8_t dfp_hardcode_refreshrate;
// VGA hardcode mode number defined in StandardVESA_TimingTable when EDID is not avablable
uint8_t vga_hardcode_mode_num;
// VGA hardcode mode number defined in StandardVESA_TimingTable when EDID is not avablable
uint8_t vga_hardcode_refreshrate;
uint16_t dpphy_refclk_10khz;
uint16_t hw_chip_id;
uint8_t dcnip_min_ver;
uint8_t dcnip_max_ver;
uint8_t max_disp_pipe_num;
uint8_t max_vbios_active_disp_pipe_num;
uint8_t max_ppll_num;
uint8_t max_disp_phy_num;
uint8_t max_aux_pairs;
uint8_t remotedisplayconfig;
uint32_t dispclk_pll_vco_freq;
uint32_t dp_ref_clk_freq;
// Worst case blackout duration for a memory clock frequency (p-state) change, units of 100s of ns (0.1 us)
uint32_t max_mclk_chg_lat;
// Worst case memory self refresh exit time, units of 100ns of ns (0.1us)
uint32_t max_sr_exit_lat;
// Worst case memory self refresh entry followed by immediate exit time, units of 100ns of ns (0.1us)
uint32_t max_sr_enter_exit_lat;
uint16_t dc_golden_table_offset; // point of struct of atom_dc_golden_table_vxx
uint16_t dc_golden_table_ver;
uint32_t aux_dphy_rx_control0_val;
uint32_t aux_dphy_tx_control_val;
uint32_t aux_dphy_rx_control1_val;
uint32_t dc_gpio_aux_ctrl_0_val;
uint32_t dc_gpio_aux_ctrl_1_val;
uint32_t dc_gpio_aux_ctrl_2_val;
uint32_t dc_gpio_aux_ctrl_3_val;
uint32_t dc_gpio_aux_ctrl_4_val;
uint32_t dc_gpio_aux_ctrl_5_val;
uint32_t reserved[26];
};
/*
***************************************************************************
Data Table ATOM_EXTERNAL_DISPLAY_CONNECTION_INFO structure
***************************************************************************
*/
struct atom_ext_display_path
{
uint16_t device_tag; //A bit vector to show what devices are supported
uint16_t device_acpi_enum; //16bit device ACPI id.
uint16_t connectorobjid; //A physical connector for displays to plug in, using object connector definitions
uint8_t auxddclut_index; //An index into external AUX/DDC channel LUT
uint8_t hpdlut_index; //An index into external HPD pin LUT
uint16_t ext_encoder_objid; //external encoder object id
uint8_t channelmapping; // if ucChannelMapping=0, using default one to one mapping
uint8_t chpninvert; // bit vector for up to 8 lanes, =0: P and N is not invert, =1 P and N is inverted
uint16_t caps;
uint16_t reserved;
};
//usCaps
enum ext_display_path_cap_def {
EXT_DISPLAY_PATH_CAPS__HBR2_DISABLE = 0x0001,
EXT_DISPLAY_PATH_CAPS__DP_FIXED_VS_EN = 0x0002,
EXT_DISPLAY_PATH_CAPS__EXT_CHIP_MASK = 0x007C,
EXT_DISPLAY_PATH_CAPS__HDMI20_PI3EQX1204 = (0x01 << 2), //PI redriver chip
EXT_DISPLAY_PATH_CAPS__HDMI20_TISN65DP159RSBT = (0x02 << 2), //TI retimer chip
EXT_DISPLAY_PATH_CAPS__HDMI20_PARADE_PS175 = (0x03 << 2) //Parade DP->HDMI recoverter chip
};
struct atom_external_display_connection_info
{
struct atom_common_table_header table_header;
uint8_t guid[16]; // a GUID is a 16 byte long string
struct atom_ext_display_path path[7]; // total of fixed 7 entries.
uint8_t checksum; // a simple Checksum of the sum of whole structure equal to 0x0.
uint8_t stereopinid; // use for eDP panel
uint8_t remotedisplayconfig;
uint8_t edptolvdsrxid;
uint8_t fixdpvoltageswing; // usCaps[1]=1, this indicate DP_LANE_SET value
uint8_t reserved[3]; // for potential expansion
};
/*
***************************************************************************
Data Table integratedsysteminfo structure
***************************************************************************
*/
struct atom_camera_dphy_timing_param
{
uint8_t profile_id; // SENSOR_PROFILES
uint32_t param;
};
struct atom_camera_dphy_elec_param
{
uint16_t param[3];
};
struct atom_camera_module_info
{
uint8_t module_id; // 0: Rear, 1: Front right of user, 2: Front left of user
uint8_t module_name[8];
struct atom_camera_dphy_timing_param timingparam[6]; // Exact number is under estimation and confirmation from sensor vendor
};
struct atom_camera_flashlight_info
{
uint8_t flashlight_id; // 0: Rear, 1: Front
uint8_t name[8];
};
struct atom_camera_data
{
uint32_t versionCode;
struct atom_camera_module_info cameraInfo[3]; // Assuming 3 camera sensors max
struct atom_camera_flashlight_info flashInfo; // Assuming 1 flashlight max
struct atom_camera_dphy_elec_param dphy_param;
uint32_t crc_val; // CRC
};
struct atom_14nm_dpphy_dvihdmi_tuningset
{
uint32_t max_symclk_in10khz;
uint8_t encoder_mode; //atom_encode_mode_def, =2: DVI, =3: HDMI mode
uint8_t phy_sel; //bit vector of phy, bit0= phya, bit1=phyb, ....bit5 = phyf
uint16_t margindeemph; //COMMON_MAR_DEEMPH_NOM[7:0]tx_margin_nom [15:8]deemph_gen1_nom
uint8_t deemph_6db_4; //COMMON_SELDEEMPH60[31:24]deemph_6db_4
uint8_t boostadj; //CMD_BUS_GLOBAL_FOR_TX_LANE0 [19:16]tx_boost_adj [20]tx_boost_en [23:22]tx_binary_ron_code_offset
uint8_t tx_driver_fifty_ohms; //COMMON_ZCALCODE_CTRL[21].tx_driver_fifty_ohms
uint8_t deemph_sel; //MARGIN_DEEMPH_LANE0.DEEMPH_SEL
};
struct atom_14nm_dpphy_dp_setting{
uint8_t dp_vs_pemph_level; //enum of atom_dp_vs_preemph_def
uint16_t margindeemph; //COMMON_MAR_DEEMPH_NOM[7:0]tx_margin_nom [15:8]deemph_gen1_nom
uint8_t deemph_6db_4; //COMMON_SELDEEMPH60[31:24]deemph_6db_4
uint8_t boostadj; //CMD_BUS_GLOBAL_FOR_TX_LANE0 [19:16]tx_boost_adj [20]tx_boost_en [23:22]tx_binary_ron_code_offset
};
struct atom_14nm_dpphy_dp_tuningset{
uint8_t phy_sel; // bit vector of phy, bit0= phya, bit1=phyb, ....bit5 = phyf
uint8_t version;
uint16_t table_size; // size of atom_14nm_dpphy_dp_tuningset
uint16_t reserved;
struct atom_14nm_dpphy_dp_setting dptuning[10];
};
struct atom_14nm_dig_transmitter_info_header_v4_0{
struct atom_common_table_header table_header;
uint16_t pcie_phy_tmds_hdmi_macro_settings_offset; // offset of PCIEPhyTMDSHDMIMacroSettingsTbl
uint16_t uniphy_vs_emph_lookup_table_offset; // offset of UniphyVSEmphLookUpTbl
uint16_t uniphy_xbar_settings_table_offset; // offset of UniphyXbarSettingsTbl
};
struct atom_14nm_combphy_tmds_vs_set
{
uint8_t sym_clk;
uint8_t dig_mode;
uint8_t phy_sel;
uint16_t common_mar_deemph_nom__margin_deemph_val;
uint8_t common_seldeemph60__deemph_6db_4_val;
uint8_t cmd_bus_global_for_tx_lane0__boostadj_val ;
uint8_t common_zcalcode_ctrl__tx_driver_fifty_ohms_val;
uint8_t margin_deemph_lane0__deemph_sel_val;
};
struct atom_DCN_dpphy_dvihdmi_tuningset
{
uint32_t max_symclk_in10khz;
uint8_t encoder_mode; //atom_encode_mode_def, =2: DVI, =3: HDMI mode
uint8_t phy_sel; //bit vector of phy, bit0= phya, bit1=phyb, ....bit5 = phyf
uint8_t tx_eq_main; // map to RDPCSTX_PHY_FUSE0/1/2/3[5:0](EQ_MAIN)
uint8_t tx_eq_pre; // map to RDPCSTX_PHY_FUSE0/1/2/3[11:6](EQ_PRE)
uint8_t tx_eq_post; // map to RDPCSTX_PHY_FUSE0/1/2/3[17:12](EQ_POST)
uint8_t reserved1;
uint8_t tx_vboost_lvl; // tx_vboost_lvl, map to RDPCSTX_PHY_CNTL0.RDPCS_PHY_TX_VBOOST_LVL
uint8_t reserved2;
};
struct atom_DCN_dpphy_dp_setting{
uint8_t dp_vs_pemph_level; //enum of atom_dp_vs_preemph_def
uint8_t tx_eq_main; // map to RDPCSTX_PHY_FUSE0/1/2/3[5:0](EQ_MAIN)
uint8_t tx_eq_pre; // map to RDPCSTX_PHY_FUSE0/1/2/3[11:6](EQ_PRE)
uint8_t tx_eq_post; // map to RDPCSTX_PHY_FUSE0/1/2/3[17:12](EQ_POST)
uint8_t tx_vboost_lvl; // tx_vboost_lvl, map to RDPCSTX_PHY_CNTL0.RDPCS_PHY_TX_VBOOST_LVL
};
struct atom_DCN_dpphy_dp_tuningset{
uint8_t phy_sel; // bit vector of phy, bit0= phya, bit1=phyb, ....bit5 = phyf
uint8_t version;
uint16_t table_size; // size of atom_14nm_dpphy_dp_setting
uint16_t reserved;
struct atom_DCN_dpphy_dp_setting dptunings[10];
};
struct atom_i2c_reg_info {
uint8_t ucI2cRegIndex;
uint8_t ucI2cRegVal;
};
struct atom_hdmi_retimer_redriver_set {
uint8_t HdmiSlvAddr;
uint8_t HdmiRegNum;
uint8_t Hdmi6GRegNum;
struct atom_i2c_reg_info HdmiRegSetting[9]; //For non 6G Hz use
struct atom_i2c_reg_info Hdmi6GhzRegSetting[3]; //For 6G Hz use.
};
struct atom_integrated_system_info_v1_11
{
struct atom_common_table_header table_header;
uint32_t vbios_misc; //enum of atom_system_vbiosmisc_def
uint32_t gpucapinfo; //enum of atom_system_gpucapinf_def
uint32_t system_config;
uint32_t cpucapinfo;
uint16_t gpuclk_ss_percentage; //unit of 0.001%, 1000 mean 1%
uint16_t gpuclk_ss_type;
uint16_t lvds_ss_percentage; //unit of 0.001%, 1000 mean 1%
uint16_t lvds_ss_rate_10hz;
uint16_t hdmi_ss_percentage; //unit of 0.001%, 1000 mean 1%
uint16_t hdmi_ss_rate_10hz;
uint16_t dvi_ss_percentage; //unit of 0.001%, 1000 mean 1%
uint16_t dvi_ss_rate_10hz;
uint16_t dpphy_override; // bit vector, enum of atom_sysinfo_dpphy_override_def
uint16_t lvds_misc; // enum of atom_sys_info_lvds_misc_def
uint16_t backlight_pwm_hz; // pwm frequency in hz
uint8_t memorytype; // enum of atom_dmi_t17_mem_type_def, APU memory type indication.
uint8_t umachannelnumber; // number of memory channels
uint8_t pwr_on_digon_to_de; /* all pwr sequence numbers below are in uint of 4ms */
uint8_t pwr_on_de_to_vary_bl;
uint8_t pwr_down_vary_bloff_to_de;
uint8_t pwr_down_de_to_digoff;
uint8_t pwr_off_delay;
uint8_t pwr_on_vary_bl_to_blon;
uint8_t pwr_down_bloff_to_vary_bloff;
uint8_t min_allowed_bl_level;
uint8_t htc_hyst_limit;
uint8_t htc_tmp_limit;
uint8_t reserved1;
uint8_t reserved2;
struct atom_external_display_connection_info extdispconninfo;
struct atom_14nm_dpphy_dvihdmi_tuningset dvi_tuningset;
struct atom_14nm_dpphy_dvihdmi_tuningset hdmi_tuningset;
struct atom_14nm_dpphy_dvihdmi_tuningset hdmi6g_tuningset;
struct atom_14nm_dpphy_dp_tuningset dp_tuningset; // rbr 1.62G dp tuning set
struct atom_14nm_dpphy_dp_tuningset dp_hbr3_tuningset; // HBR3 dp tuning set
struct atom_camera_data camera_info;
struct atom_hdmi_retimer_redriver_set dp0_retimer_set; //for DP0
struct atom_hdmi_retimer_redriver_set dp1_retimer_set; //for DP1
struct atom_hdmi_retimer_redriver_set dp2_retimer_set; //for DP2
struct atom_hdmi_retimer_redriver_set dp3_retimer_set; //for DP3
struct atom_14nm_dpphy_dp_tuningset dp_hbr_tuningset; //hbr 2.7G dp tuning set
struct atom_14nm_dpphy_dp_tuningset dp_hbr2_tuningset; //hbr2 5.4G dp turnig set
struct atom_14nm_dpphy_dp_tuningset edp_tuningset; //edp tuning set
uint32_t reserved[66];
};
struct atom_integrated_system_info_v1_12
{
struct atom_common_table_header table_header;
uint32_t vbios_misc; //enum of atom_system_vbiosmisc_def
uint32_t gpucapinfo; //enum of atom_system_gpucapinf_def
uint32_t system_config;
uint32_t cpucapinfo;
uint16_t gpuclk_ss_percentage; //unit of 0.001%, 1000 mean 1%
uint16_t gpuclk_ss_type;
uint16_t lvds_ss_percentage; //unit of 0.001%, 1000 mean 1%
uint16_t lvds_ss_rate_10hz;
uint16_t hdmi_ss_percentage; //unit of 0.001%, 1000 mean 1%
uint16_t hdmi_ss_rate_10hz;
uint16_t dvi_ss_percentage; //unit of 0.001%, 1000 mean 1%
uint16_t dvi_ss_rate_10hz;
uint16_t dpphy_override; // bit vector, enum of atom_sysinfo_dpphy_override_def
uint16_t lvds_misc; // enum of atom_sys_info_lvds_misc_def
uint16_t backlight_pwm_hz; // pwm frequency in hz
uint8_t memorytype; // enum of atom_dmi_t17_mem_type_def, APU memory type indication.
uint8_t umachannelnumber; // number of memory channels
uint8_t pwr_on_digon_to_de; // all pwr sequence numbers below are in uint of 4ms //
uint8_t pwr_on_de_to_vary_bl;
uint8_t pwr_down_vary_bloff_to_de;
uint8_t pwr_down_de_to_digoff;
uint8_t pwr_off_delay;
uint8_t pwr_on_vary_bl_to_blon;
uint8_t pwr_down_bloff_to_vary_bloff;
uint8_t min_allowed_bl_level;
uint8_t htc_hyst_limit;
uint8_t htc_tmp_limit;
uint8_t reserved1;
uint8_t reserved2;
struct atom_external_display_connection_info extdispconninfo;
struct atom_DCN_dpphy_dvihdmi_tuningset TMDS_tuningset;
struct atom_DCN_dpphy_dvihdmi_tuningset hdmiCLK5_tuningset;
struct atom_DCN_dpphy_dvihdmi_tuningset hdmiCLK8_tuningset;
struct atom_DCN_dpphy_dp_tuningset rbr_tuningset; // rbr 1.62G dp tuning set
struct atom_DCN_dpphy_dp_tuningset hbr3_tuningset; // HBR3 dp tuning set
struct atom_camera_data camera_info;
struct atom_hdmi_retimer_redriver_set dp0_retimer_set; //for DP0
struct atom_hdmi_retimer_redriver_set dp1_retimer_set; //for DP1
struct atom_hdmi_retimer_redriver_set dp2_retimer_set; //for DP2
struct atom_hdmi_retimer_redriver_set dp3_retimer_set; //for DP3
struct atom_DCN_dpphy_dp_tuningset hbr_tuningset; //hbr 2.7G dp tuning set
struct atom_DCN_dpphy_dp_tuningset hbr2_tuningset; //hbr2 5.4G dp turnig set
struct atom_DCN_dpphy_dp_tuningset edp_tunings; //edp tuning set
struct atom_DCN_dpphy_dvihdmi_tuningset hdmiCLK6_tuningset;
uint32_t reserved[63];
};
struct edp_info_table
{
uint16_t edp_backlight_pwm_hz;
uint16_t edp_ss_percentage;
uint16_t edp_ss_rate_10hz;
uint16_t reserved1;
uint32_t reserved2;
uint8_t edp_pwr_on_off_delay;
uint8_t edp_pwr_on_vary_bl_to_blon;
uint8_t edp_pwr_down_bloff_to_vary_bloff;
uint8_t edp_panel_bpc;
uint8_t edp_bootup_bl_level;
uint8_t reserved3[3];
uint32_t reserved4[3];
};
struct atom_integrated_system_info_v2_1
{
struct atom_common_table_header table_header;
uint32_t vbios_misc; //enum of atom_system_vbiosmisc_def
uint32_t gpucapinfo; //enum of atom_system_gpucapinf_def
uint32_t system_config;
uint32_t cpucapinfo;
uint16_t gpuclk_ss_percentage; //unit of 0.001%, 1000 mean 1%
uint16_t gpuclk_ss_type;
uint16_t dpphy_override; // bit vector, enum of atom_sysinfo_dpphy_override_def
uint8_t memorytype; // enum of atom_dmi_t17_mem_type_def, APU memory type indication.
uint8_t umachannelnumber; // number of memory channels
uint8_t htc_hyst_limit;
uint8_t htc_tmp_limit;
uint8_t reserved1;
uint8_t reserved2;
struct edp_info_table edp1_info;
struct edp_info_table edp2_info;
uint32_t reserved3[8];
struct atom_external_display_connection_info extdispconninfo;
struct atom_DCN_dpphy_dvihdmi_tuningset TMDS_tuningset;
struct atom_DCN_dpphy_dvihdmi_tuningset hdmiCLK5_tuningset; //add clk6
struct atom_DCN_dpphy_dvihdmi_tuningset hdmiCLK6_tuningset;
struct atom_DCN_dpphy_dvihdmi_tuningset hdmiCLK8_tuningset;
uint32_t reserved4[6];//reserve 2*sizeof(atom_DCN_dpphy_dvihdmi_tuningset)
struct atom_DCN_dpphy_dp_tuningset rbr_tuningset; // rbr 1.62G dp tuning set
struct atom_DCN_dpphy_dp_tuningset hbr_tuningset; //hbr 2.7G dp tuning set
struct atom_DCN_dpphy_dp_tuningset hbr2_tuningset; //hbr2 5.4G dp turnig set
struct atom_DCN_dpphy_dp_tuningset hbr3_tuningset; // HBR3 dp tuning set
struct atom_DCN_dpphy_dp_tuningset edp_tunings; //edp tuning set
uint32_t reserved5[28];//reserve 2*sizeof(atom_DCN_dpphy_dp_tuningset)
struct atom_hdmi_retimer_redriver_set dp0_retimer_set; //for DP0
struct atom_hdmi_retimer_redriver_set dp1_retimer_set; //for DP1
struct atom_hdmi_retimer_redriver_set dp2_retimer_set; //for DP2
struct atom_hdmi_retimer_redriver_set dp3_retimer_set; //for DP3
uint32_t reserved6[30];// reserve size of(atom_camera_data) for camera_info
uint32_t reserved7[32];
};
struct atom_n6_display_phy_tuning_set {
uint8_t display_signal_type;
uint8_t phy_sel;
uint8_t preset_level;
uint8_t reserved1;
uint32_t reserved2;
uint32_t speed_upto;
uint8_t tx_vboost_level;
uint8_t tx_vreg_v2i;
uint8_t tx_vregdrv_byp;
uint8_t tx_term_cntl;
uint8_t tx_peak_level;
uint8_t tx_slew_en;
uint8_t tx_eq_pre;
uint8_t tx_eq_main;
uint8_t tx_eq_post;
uint8_t tx_en_inv_pre;
uint8_t tx_en_inv_post;
uint8_t reserved3;
uint32_t reserved4;
uint32_t reserved5;
uint32_t reserved6;
};
struct atom_display_phy_tuning_info {
struct atom_common_table_header table_header;
struct atom_n6_display_phy_tuning_set disp_phy_tuning[1];
};
struct atom_integrated_system_info_v2_2
{
struct atom_common_table_header table_header;
uint32_t vbios_misc; //enum of atom_system_vbiosmisc_def
uint32_t gpucapinfo; //enum of atom_system_gpucapinf_def
uint32_t system_config;
uint32_t cpucapinfo;
uint16_t gpuclk_ss_percentage; //unit of 0.001%, 1000 mean 1%
uint16_t gpuclk_ss_type;
uint16_t dpphy_override; // bit vector, enum of atom_sysinfo_dpphy_override_def
uint8_t memorytype; // enum of atom_dmi_t17_mem_type_def, APU memory type indication.
uint8_t umachannelnumber; // number of memory channels
uint8_t htc_hyst_limit;
uint8_t htc_tmp_limit;
uint8_t reserved1;
uint8_t reserved2;
struct edp_info_table edp1_info;
struct edp_info_table edp2_info;
uint32_t reserved3[8];
struct atom_external_display_connection_info extdispconninfo;
uint32_t reserved4[189];
};
// system_config
enum atom_system_vbiosmisc_def{
INTEGRATED_SYSTEM_INFO__GET_EDID_CALLBACK_FUNC_SUPPORT = 0x01,
};
// gpucapinfo
enum atom_system_gpucapinf_def{
SYS_INFO_GPUCAPS__ENABEL_DFS_BYPASS = 0x10,
};
//dpphy_override
enum atom_sysinfo_dpphy_override_def{
ATOM_ENABLE_DVI_TUNINGSET = 0x01,
ATOM_ENABLE_HDMI_TUNINGSET = 0x02,
ATOM_ENABLE_HDMI6G_TUNINGSET = 0x04,
ATOM_ENABLE_DP_TUNINGSET = 0x08,
ATOM_ENABLE_DP_HBR3_TUNINGSET = 0x10,
};
//lvds_misc
enum atom_sys_info_lvds_misc_def
{
SYS_INFO_LVDS_MISC_888_FPDI_MODE =0x01,
SYS_INFO_LVDS_MISC_888_BPC_MODE =0x04,
SYS_INFO_LVDS_MISC_OVERRIDE_EN =0x08,
};
//memorytype DMI Type 17 offset 12h - Memory Type
enum atom_dmi_t17_mem_type_def{
OtherMemType = 0x01, ///< Assign 01 to Other
UnknownMemType, ///< Assign 02 to Unknown
DramMemType, ///< Assign 03 to DRAM
EdramMemType, ///< Assign 04 to EDRAM
VramMemType, ///< Assign 05 to VRAM
SramMemType, ///< Assign 06 to SRAM
RamMemType, ///< Assign 07 to RAM
RomMemType, ///< Assign 08 to ROM
FlashMemType, ///< Assign 09 to Flash
EepromMemType, ///< Assign 10 to EEPROM
FepromMemType, ///< Assign 11 to FEPROM
EpromMemType, ///< Assign 12 to EPROM
CdramMemType, ///< Assign 13 to CDRAM
ThreeDramMemType, ///< Assign 14 to 3DRAM
SdramMemType, ///< Assign 15 to SDRAM
SgramMemType, ///< Assign 16 to SGRAM
RdramMemType, ///< Assign 17 to RDRAM
DdrMemType, ///< Assign 18 to DDR
Ddr2MemType, ///< Assign 19 to DDR2
Ddr2FbdimmMemType, ///< Assign 20 to DDR2 FB-DIMM
Ddr3MemType = 0x18, ///< Assign 24 to DDR3
Fbd2MemType, ///< Assign 25 to FBD2
Ddr4MemType, ///< Assign 26 to DDR4
LpDdrMemType, ///< Assign 27 to LPDDR
LpDdr2MemType, ///< Assign 28 to LPDDR2
LpDdr3MemType, ///< Assign 29 to LPDDR3
LpDdr4MemType, ///< Assign 30 to LPDDR4
GDdr6MemType, ///< Assign 31 to GDDR6
HbmMemType, ///< Assign 32 to HBM
Hbm2MemType, ///< Assign 33 to HBM2
Ddr5MemType, ///< Assign 34 to DDR5
LpDdr5MemType, ///< Assign 35 to LPDDR5
};
// this Table is used starting from NL/AM, used by SBIOS and pass the IntegratedSystemInfoTable/PowerPlayInfoTable/SystemCameraInfoTable
struct atom_fusion_system_info_v4
{
struct atom_integrated_system_info_v1_11 sysinfo; // refer to ATOM_INTEGRATED_SYSTEM_INFO_V1_8 definition
uint32_t powerplayinfo[256]; // Reserve 1024 bytes space for PowerPlayInfoTable
};
/*
***************************************************************************
Data Table gfx_info structure
***************************************************************************
*/
struct atom_gfx_info_v2_2
{
struct atom_common_table_header table_header;
uint8_t gfxip_min_ver;
uint8_t gfxip_max_ver;
uint8_t max_shader_engines;
uint8_t max_tile_pipes;
uint8_t max_cu_per_sh;
uint8_t max_sh_per_se;
uint8_t max_backends_per_se;
uint8_t max_texture_channel_caches;
uint32_t regaddr_cp_dma_src_addr;
uint32_t regaddr_cp_dma_src_addr_hi;
uint32_t regaddr_cp_dma_dst_addr;
uint32_t regaddr_cp_dma_dst_addr_hi;
uint32_t regaddr_cp_dma_command;
uint32_t regaddr_cp_status;
uint32_t regaddr_rlc_gpu_clock_32;
uint32_t rlc_gpu_timer_refclk;
};
struct atom_gfx_info_v2_3 {
struct atom_common_table_header table_header;
uint8_t gfxip_min_ver;
uint8_t gfxip_max_ver;
uint8_t max_shader_engines;
uint8_t max_tile_pipes;
uint8_t max_cu_per_sh;
uint8_t max_sh_per_se;
uint8_t max_backends_per_se;
uint8_t max_texture_channel_caches;
uint32_t regaddr_cp_dma_src_addr;
uint32_t regaddr_cp_dma_src_addr_hi;
uint32_t regaddr_cp_dma_dst_addr;
uint32_t regaddr_cp_dma_dst_addr_hi;
uint32_t regaddr_cp_dma_command;
uint32_t regaddr_cp_status;
uint32_t regaddr_rlc_gpu_clock_32;
uint32_t rlc_gpu_timer_refclk;
uint8_t active_cu_per_sh;
uint8_t active_rb_per_se;
uint16_t gcgoldenoffset;
uint32_t rm21_sram_vmin_value;
};
struct atom_gfx_info_v2_4
{
struct atom_common_table_header table_header;
uint8_t gfxip_min_ver;
uint8_t gfxip_max_ver;
uint8_t max_shader_engines;
uint8_t reserved;
uint8_t max_cu_per_sh;
uint8_t max_sh_per_se;
uint8_t max_backends_per_se;
uint8_t max_texture_channel_caches;
uint32_t regaddr_cp_dma_src_addr;
uint32_t regaddr_cp_dma_src_addr_hi;
uint32_t regaddr_cp_dma_dst_addr;
uint32_t regaddr_cp_dma_dst_addr_hi;
uint32_t regaddr_cp_dma_command;
uint32_t regaddr_cp_status;
uint32_t regaddr_rlc_gpu_clock_32;
uint32_t rlc_gpu_timer_refclk;
uint8_t active_cu_per_sh;
uint8_t active_rb_per_se;
uint16_t gcgoldenoffset;
uint16_t gc_num_gprs;
uint16_t gc_gsprim_buff_depth;
uint16_t gc_parameter_cache_depth;
uint16_t gc_wave_size;
uint16_t gc_max_waves_per_simd;
uint16_t gc_lds_size;
uint8_t gc_num_max_gs_thds;
uint8_t gc_gs_table_depth;
uint8_t gc_double_offchip_lds_buffer;
uint8_t gc_max_scratch_slots_per_cu;
uint32_t sram_rm_fuses_val;
uint32_t sram_custom_rm_fuses_val;
};
struct atom_gfx_info_v2_7 {
struct atom_common_table_header table_header;
uint8_t gfxip_min_ver;
uint8_t gfxip_max_ver;
uint8_t max_shader_engines;
uint8_t reserved;
uint8_t max_cu_per_sh;
uint8_t max_sh_per_se;
uint8_t max_backends_per_se;
uint8_t max_texture_channel_caches;
uint32_t regaddr_cp_dma_src_addr;
uint32_t regaddr_cp_dma_src_addr_hi;
uint32_t regaddr_cp_dma_dst_addr;
uint32_t regaddr_cp_dma_dst_addr_hi;
uint32_t regaddr_cp_dma_command;
uint32_t regaddr_cp_status;
uint32_t regaddr_rlc_gpu_clock_32;
uint32_t rlc_gpu_timer_refclk;
uint8_t active_cu_per_sh;
uint8_t active_rb_per_se;
uint16_t gcgoldenoffset;
uint16_t gc_num_gprs;
uint16_t gc_gsprim_buff_depth;
uint16_t gc_parameter_cache_depth;
uint16_t gc_wave_size;
uint16_t gc_max_waves_per_simd;
uint16_t gc_lds_size;
uint8_t gc_num_max_gs_thds;
uint8_t gc_gs_table_depth;
uint8_t gc_double_offchip_lds_buffer;
uint8_t gc_max_scratch_slots_per_cu;
uint32_t sram_rm_fuses_val;
uint32_t sram_custom_rm_fuses_val;
uint8_t cut_cu;
uint8_t active_cu_total;
uint8_t cu_reserved[2];
uint32_t gc_config;
uint8_t inactive_cu_per_se[8];
uint32_t reserved2[6];
};
struct atom_gfx_info_v3_0 {
struct atom_common_table_header table_header;
uint8_t gfxip_min_ver;
uint8_t gfxip_max_ver;
uint8_t max_shader_engines;
uint8_t max_tile_pipes;
uint8_t max_cu_per_sh;
uint8_t max_sh_per_se;
uint8_t max_backends_per_se;
uint8_t max_texture_channel_caches;
uint32_t regaddr_lsdma_queue0_rb_rptr;
uint32_t regaddr_lsdma_queue0_rb_rptr_hi;
uint32_t regaddr_lsdma_queue0_rb_wptr;
uint32_t regaddr_lsdma_queue0_rb_wptr_hi;
uint32_t regaddr_lsdma_command;
uint32_t regaddr_lsdma_status;
uint32_t regaddr_golden_tsc_count_lower;
uint32_t golden_tsc_count_lower_refclk;
uint8_t active_wgp_per_se;
uint8_t active_rb_per_se;
uint8_t active_se;
uint8_t reserved1;
uint32_t sram_rm_fuses_val;
uint32_t sram_custom_rm_fuses_val;
uint32_t inactive_sa_mask;
uint32_t gc_config;
uint8_t inactive_wgp[16];
uint8_t inactive_rb[16];
uint32_t gdfll_as_wait_ctrl_val;
uint32_t gdfll_as_step_ctrl_val;
uint32_t reserved[8];
};
/*
***************************************************************************
Data Table smu_info structure
***************************************************************************
*/
struct atom_smu_info_v3_1
{
struct atom_common_table_header table_header;
uint8_t smuip_min_ver;
uint8_t smuip_max_ver;
uint8_t smu_rsd1;
uint8_t gpuclk_ss_mode; // enum of atom_spread_spectrum_mode
uint16_t sclk_ss_percentage;
uint16_t sclk_ss_rate_10hz;
uint16_t gpuclk_ss_percentage; // in unit of 0.001%
uint16_t gpuclk_ss_rate_10hz;
uint32_t core_refclk_10khz;
uint8_t ac_dc_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for AC/DC switching, =0xff means invalid
uint8_t ac_dc_polarity; // GPIO polarity for AC/DC switching
uint8_t vr0hot_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for VR0 HOT event, =0xff means invalid
uint8_t vr0hot_polarity; // GPIO polarity for VR0 HOT event
uint8_t vr1hot_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for VR1 HOT event , =0xff means invalid
uint8_t vr1hot_polarity; // GPIO polarity for VR1 HOT event
uint8_t fw_ctf_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for CTF, =0xff means invalid
uint8_t fw_ctf_polarity; // GPIO polarity for CTF
};
struct atom_smu_info_v3_2 {
struct atom_common_table_header table_header;
uint8_t smuip_min_ver;
uint8_t smuip_max_ver;
uint8_t smu_rsd1;
uint8_t gpuclk_ss_mode;
uint16_t sclk_ss_percentage;
uint16_t sclk_ss_rate_10hz;
uint16_t gpuclk_ss_percentage; // in unit of 0.001%
uint16_t gpuclk_ss_rate_10hz;
uint32_t core_refclk_10khz;
uint8_t ac_dc_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for AC/DC switching, =0xff means invalid
uint8_t ac_dc_polarity; // GPIO polarity for AC/DC switching
uint8_t vr0hot_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for VR0 HOT event, =0xff means invalid
uint8_t vr0hot_polarity; // GPIO polarity for VR0 HOT event
uint8_t vr1hot_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for VR1 HOT event , =0xff means invalid
uint8_t vr1hot_polarity; // GPIO polarity for VR1 HOT event
uint8_t fw_ctf_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for CTF, =0xff means invalid
uint8_t fw_ctf_polarity; // GPIO polarity for CTF
uint8_t pcc_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for PCC, =0xff means invalid
uint8_t pcc_gpio_polarity; // GPIO polarity for CTF
uint16_t smugoldenoffset;
uint32_t gpupll_vco_freq_10khz;
uint32_t bootup_smnclk_10khz;
uint32_t bootup_socclk_10khz;
uint32_t bootup_mp0clk_10khz;
uint32_t bootup_mp1clk_10khz;
uint32_t bootup_lclk_10khz;
uint32_t bootup_dcefclk_10khz;
uint32_t ctf_threshold_override_value;
uint32_t reserved[5];
};
struct atom_smu_info_v3_3 {
struct atom_common_table_header table_header;
uint8_t smuip_min_ver;
uint8_t smuip_max_ver;
uint8_t waflclk_ss_mode;
uint8_t gpuclk_ss_mode;
uint16_t sclk_ss_percentage;
uint16_t sclk_ss_rate_10hz;
uint16_t gpuclk_ss_percentage; // in unit of 0.001%
uint16_t gpuclk_ss_rate_10hz;
uint32_t core_refclk_10khz;
uint8_t ac_dc_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for AC/DC switching, =0xff means invalid
uint8_t ac_dc_polarity; // GPIO polarity for AC/DC switching
uint8_t vr0hot_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for VR0 HOT event, =0xff means invalid
uint8_t vr0hot_polarity; // GPIO polarity for VR0 HOT event
uint8_t vr1hot_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for VR1 HOT event , =0xff means invalid
uint8_t vr1hot_polarity; // GPIO polarity for VR1 HOT event
uint8_t fw_ctf_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for CTF, =0xff means invalid
uint8_t fw_ctf_polarity; // GPIO polarity for CTF
uint8_t pcc_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for PCC, =0xff means invalid
uint8_t pcc_gpio_polarity; // GPIO polarity for CTF
uint16_t smugoldenoffset;
uint32_t gpupll_vco_freq_10khz;
uint32_t bootup_smnclk_10khz;
uint32_t bootup_socclk_10khz;
uint32_t bootup_mp0clk_10khz;
uint32_t bootup_mp1clk_10khz;
uint32_t bootup_lclk_10khz;
uint32_t bootup_dcefclk_10khz;
uint32_t ctf_threshold_override_value;
uint32_t syspll3_0_vco_freq_10khz;
uint32_t syspll3_1_vco_freq_10khz;
uint32_t bootup_fclk_10khz;
uint32_t bootup_waflclk_10khz;
uint32_t smu_info_caps;
uint16_t waflclk_ss_percentage; // in unit of 0.001%
uint16_t smuinitoffset;
uint32_t reserved;
};
struct atom_smu_info_v3_5
{
struct atom_common_table_header table_header;
uint8_t smuip_min_ver;
uint8_t smuip_max_ver;
uint8_t waflclk_ss_mode;
uint8_t gpuclk_ss_mode;
uint16_t sclk_ss_percentage;
uint16_t sclk_ss_rate_10hz;
uint16_t gpuclk_ss_percentage; // in unit of 0.001%
uint16_t gpuclk_ss_rate_10hz;
uint32_t core_refclk_10khz;
uint32_t syspll0_1_vco_freq_10khz;
uint32_t syspll0_2_vco_freq_10khz;
uint8_t pcc_gpio_bit; // GPIO bit shift in SMU_GPIOPAD_A configured for PCC, =0xff means invalid
uint8_t pcc_gpio_polarity; // GPIO polarity for CTF
uint16_t smugoldenoffset;
uint32_t syspll0_0_vco_freq_10khz;
uint32_t bootup_smnclk_10khz;
uint32_t bootup_socclk_10khz;
uint32_t bootup_mp0clk_10khz;
uint32_t bootup_mp1clk_10khz;
uint32_t bootup_lclk_10khz;
uint32_t bootup_dcefclk_10khz;
uint32_t ctf_threshold_override_value;
uint32_t syspll3_0_vco_freq_10khz;
uint32_t syspll3_1_vco_freq_10khz;
uint32_t bootup_fclk_10khz;
uint32_t bootup_waflclk_10khz;
uint32_t smu_info_caps;
uint16_t waflclk_ss_percentage; // in unit of 0.001%
uint16_t smuinitoffset;
uint32_t bootup_dprefclk_10khz;
uint32_t bootup_usbclk_10khz;
uint32_t smb_slave_address;
uint32_t cg_fdo_ctrl0_val;
uint32_t cg_fdo_ctrl1_val;
uint32_t cg_fdo_ctrl2_val;
uint32_t gdfll_as_wait_ctrl_val;
uint32_t gdfll_as_step_ctrl_val;
uint32_t bootup_dtbclk_10khz;
uint32_t fclk_syspll_refclk_10khz;
uint32_t smusvi_svc0_val;
uint32_t smusvi_svc1_val;
uint32_t smusvi_svd0_val;
uint32_t smusvi_svd1_val;
uint32_t smusvi_svt0_val;
uint32_t smusvi_svt1_val;
uint32_t cg_tach_ctrl_val;
uint32_t cg_pump_ctrl1_val;
uint32_t cg_pump_tach_ctrl_val;
uint32_t thm_ctf_delay_val;
uint32_t thm_thermal_int_ctrl_val;
uint32_t thm_tmon_config_val;
uint32_t reserved[16];
};
struct atom_smu_info_v3_6
{
struct atom_common_table_header table_header;
uint8_t smuip_min_ver;
uint8_t smuip_max_ver;
uint8_t waflclk_ss_mode;
uint8_t gpuclk_ss_mode;
uint16_t sclk_ss_percentage;
uint16_t sclk_ss_rate_10hz;
uint16_t gpuclk_ss_percentage;
uint16_t gpuclk_ss_rate_10hz;
uint32_t core_refclk_10khz;
uint32_t syspll0_1_vco_freq_10khz;
uint32_t syspll0_2_vco_freq_10khz;
uint8_t pcc_gpio_bit;
uint8_t pcc_gpio_polarity;
uint16_t smugoldenoffset;
uint32_t syspll0_0_vco_freq_10khz;
uint32_t bootup_smnclk_10khz;
uint32_t bootup_socclk_10khz;
uint32_t bootup_mp0clk_10khz;
uint32_t bootup_mp1clk_10khz;
uint32_t bootup_lclk_10khz;
uint32_t bootup_dxioclk_10khz;
uint32_t ctf_threshold_override_value;
uint32_t syspll3_0_vco_freq_10khz;
uint32_t syspll3_1_vco_freq_10khz;
uint32_t bootup_fclk_10khz;
uint32_t bootup_waflclk_10khz;
uint32_t smu_info_caps;
uint16_t waflclk_ss_percentage;
uint16_t smuinitoffset;
uint32_t bootup_gfxavsclk_10khz;
uint32_t bootup_mpioclk_10khz;
uint32_t smb_slave_address;
uint32_t cg_fdo_ctrl0_val;
uint32_t cg_fdo_ctrl1_val;
uint32_t cg_fdo_ctrl2_val;
uint32_t gdfll_as_wait_ctrl_val;
uint32_t gdfll_as_step_ctrl_val;
uint32_t reserved_clk;
uint32_t fclk_syspll_refclk_10khz;
uint32_t smusvi_svc0_val;
uint32_t smusvi_svc1_val;
uint32_t smusvi_svd0_val;
uint32_t smusvi_svd1_val;
uint32_t smusvi_svt0_val;
uint32_t smusvi_svt1_val;
uint32_t cg_tach_ctrl_val;
uint32_t cg_pump_ctrl1_val;
uint32_t cg_pump_tach_ctrl_val;
uint32_t thm_ctf_delay_val;
uint32_t thm_thermal_int_ctrl_val;
uint32_t thm_tmon_config_val;
uint32_t bootup_vclk_10khz;
uint32_t bootup_dclk_10khz;
uint32_t smu_gpiopad_pu_en_val;
uint32_t smu_gpiopad_pd_en_val;
uint32_t reserved[12];
};
struct atom_smu_info_v4_0 {
struct atom_common_table_header table_header;
uint32_t bootup_gfxclk_bypass_10khz;
uint32_t bootup_usrclk_10khz;
uint32_t bootup_csrclk_10khz;
uint32_t core_refclk_10khz;
uint32_t syspll1_vco_freq_10khz;
uint32_t syspll2_vco_freq_10khz;
uint8_t pcc_gpio_bit;
uint8_t pcc_gpio_polarity;
uint16_t bootup_vddusr_mv;
uint32_t syspll0_vco_freq_10khz;
uint32_t bootup_smnclk_10khz;
uint32_t bootup_socclk_10khz;
uint32_t bootup_mp0clk_10khz;
uint32_t bootup_mp1clk_10khz;
uint32_t bootup_lclk_10khz;
uint32_t bootup_dcefclk_10khz;
uint32_t ctf_threshold_override_value;
uint32_t syspll3_vco_freq_10khz;
uint32_t mm_syspll_vco_freq_10khz;
uint32_t bootup_fclk_10khz;
uint32_t bootup_waflclk_10khz;
uint32_t smu_info_caps;
uint16_t waflclk_ss_percentage;
uint16_t smuinitoffset;
uint32_t bootup_dprefclk_10khz;
uint32_t bootup_usbclk_10khz;
uint32_t smb_slave_address;
uint32_t cg_fdo_ctrl0_val;
uint32_t cg_fdo_ctrl1_val;
uint32_t cg_fdo_ctrl2_val;
uint32_t gdfll_as_wait_ctrl_val;
uint32_t gdfll_as_step_ctrl_val;
uint32_t bootup_dtbclk_10khz;
uint32_t fclk_syspll_refclk_10khz;
uint32_t smusvi_svc0_val;
uint32_t smusvi_svc1_val;
uint32_t smusvi_svd0_val;
uint32_t smusvi_svd1_val;
uint32_t smusvi_svt0_val;
uint32_t smusvi_svt1_val;
uint32_t cg_tach_ctrl_val;
uint32_t cg_pump_ctrl1_val;
uint32_t cg_pump_tach_ctrl_val;
uint32_t thm_ctf_delay_val;
uint32_t thm_thermal_int_ctrl_val;
uint32_t thm_tmon_config_val;
uint32_t smbus_timing_cntrl0_val;
uint32_t smbus_timing_cntrl1_val;
uint32_t smbus_timing_cntrl2_val;
uint32_t pwr_disp_timer_global_control_val;
uint32_t bootup_mpioclk_10khz;
uint32_t bootup_dclk0_10khz;
uint32_t bootup_vclk0_10khz;
uint32_t bootup_dclk1_10khz;
uint32_t bootup_vclk1_10khz;
uint32_t bootup_baco400clk_10khz;
uint32_t bootup_baco1200clk_bypass_10khz;
uint32_t bootup_baco700clk_bypass_10khz;
uint32_t reserved[16];
};
/*
***************************************************************************
Data Table smc_dpm_info structure
***************************************************************************
*/
struct atom_smc_dpm_info_v4_1
{
struct atom_common_table_header table_header;
uint8_t liquid1_i2c_address;
uint8_t liquid2_i2c_address;
uint8_t vr_i2c_address;
uint8_t plx_i2c_address;
uint8_t liquid_i2c_linescl;
uint8_t liquid_i2c_linesda;
uint8_t vr_i2c_linescl;
uint8_t vr_i2c_linesda;
uint8_t plx_i2c_linescl;
uint8_t plx_i2c_linesda;
uint8_t vrsensorpresent;
uint8_t liquidsensorpresent;
uint16_t maxvoltagestepgfx;
uint16_t maxvoltagestepsoc;
uint8_t vddgfxvrmapping;
uint8_t vddsocvrmapping;
uint8_t vddmem0vrmapping;
uint8_t vddmem1vrmapping;
uint8_t gfxulvphasesheddingmask;
uint8_t soculvphasesheddingmask;
uint8_t padding8_v[2];
uint16_t gfxmaxcurrent;
uint8_t gfxoffset;
uint8_t padding_telemetrygfx;
uint16_t socmaxcurrent;
uint8_t socoffset;
uint8_t padding_telemetrysoc;
uint16_t mem0maxcurrent;
uint8_t mem0offset;
uint8_t padding_telemetrymem0;
uint16_t mem1maxcurrent;
uint8_t mem1offset;
uint8_t padding_telemetrymem1;
uint8_t acdcgpio;
uint8_t acdcpolarity;
uint8_t vr0hotgpio;
uint8_t vr0hotpolarity;
uint8_t vr1hotgpio;
uint8_t vr1hotpolarity;
uint8_t padding1;
uint8_t padding2;
uint8_t ledpin0;
uint8_t ledpin1;
uint8_t ledpin2;
uint8_t padding8_4;
uint8_t pllgfxclkspreadenabled;
uint8_t pllgfxclkspreadpercent;
uint16_t pllgfxclkspreadfreq;
uint8_t uclkspreadenabled;
uint8_t uclkspreadpercent;
uint16_t uclkspreadfreq;
uint8_t socclkspreadenabled;
uint8_t socclkspreadpercent;
uint16_t socclkspreadfreq;
uint8_t acggfxclkspreadenabled;
uint8_t acggfxclkspreadpercent;
uint16_t acggfxclkspreadfreq;
uint8_t Vr2_I2C_address;
uint8_t padding_vr2[3];
uint32_t boardreserved[9];
};
/*
***************************************************************************
Data Table smc_dpm_info structure
***************************************************************************
*/
struct atom_smc_dpm_info_v4_3
{
struct atom_common_table_header table_header;
uint8_t liquid1_i2c_address;
uint8_t liquid2_i2c_address;
uint8_t vr_i2c_address;
uint8_t plx_i2c_address;
uint8_t liquid_i2c_linescl;
uint8_t liquid_i2c_linesda;
uint8_t vr_i2c_linescl;
uint8_t vr_i2c_linesda;
uint8_t plx_i2c_linescl;
uint8_t plx_i2c_linesda;
uint8_t vrsensorpresent;
uint8_t liquidsensorpresent;
uint16_t maxvoltagestepgfx;
uint16_t maxvoltagestepsoc;
uint8_t vddgfxvrmapping;
uint8_t vddsocvrmapping;
uint8_t vddmem0vrmapping;
uint8_t vddmem1vrmapping;
uint8_t gfxulvphasesheddingmask;
uint8_t soculvphasesheddingmask;
uint8_t externalsensorpresent;
uint8_t padding8_v;
uint16_t gfxmaxcurrent;
uint8_t gfxoffset;
uint8_t padding_telemetrygfx;
uint16_t socmaxcurrent;
uint8_t socoffset;
uint8_t padding_telemetrysoc;
uint16_t mem0maxcurrent;
uint8_t mem0offset;
uint8_t padding_telemetrymem0;
uint16_t mem1maxcurrent;
uint8_t mem1offset;
uint8_t padding_telemetrymem1;
uint8_t acdcgpio;
uint8_t acdcpolarity;
uint8_t vr0hotgpio;
uint8_t vr0hotpolarity;
uint8_t vr1hotgpio;
uint8_t vr1hotpolarity;
uint8_t padding1;
uint8_t padding2;
uint8_t ledpin0;
uint8_t ledpin1;
uint8_t ledpin2;
uint8_t padding8_4;
uint8_t pllgfxclkspreadenabled;
uint8_t pllgfxclkspreadpercent;
uint16_t pllgfxclkspreadfreq;
uint8_t uclkspreadenabled;
uint8_t uclkspreadpercent;
uint16_t uclkspreadfreq;
uint8_t fclkspreadenabled;
uint8_t fclkspreadpercent;
uint16_t fclkspreadfreq;
uint8_t fllgfxclkspreadenabled;
uint8_t fllgfxclkspreadpercent;
uint16_t fllgfxclkspreadfreq;
uint32_t boardreserved[10];
};
struct smudpm_i2ccontrollerconfig_t {
uint32_t enabled;
uint32_t slaveaddress;
uint32_t controllerport;
uint32_t controllername;
uint32_t thermalthrottler;
uint32_t i2cprotocol;
uint32_t i2cspeed;
};
struct atom_smc_dpm_info_v4_4
{
struct atom_common_table_header table_header;
uint32_t i2c_padding[3];
uint16_t maxvoltagestepgfx;
uint16_t maxvoltagestepsoc;
uint8_t vddgfxvrmapping;
uint8_t vddsocvrmapping;
uint8_t vddmem0vrmapping;
uint8_t vddmem1vrmapping;
uint8_t gfxulvphasesheddingmask;
uint8_t soculvphasesheddingmask;
uint8_t externalsensorpresent;
uint8_t padding8_v;
uint16_t gfxmaxcurrent;
uint8_t gfxoffset;
uint8_t padding_telemetrygfx;
uint16_t socmaxcurrent;
uint8_t socoffset;
uint8_t padding_telemetrysoc;
uint16_t mem0maxcurrent;
uint8_t mem0offset;
uint8_t padding_telemetrymem0;
uint16_t mem1maxcurrent;
uint8_t mem1offset;
uint8_t padding_telemetrymem1;
uint8_t acdcgpio;
uint8_t acdcpolarity;
uint8_t vr0hotgpio;
uint8_t vr0hotpolarity;
uint8_t vr1hotgpio;
uint8_t vr1hotpolarity;
uint8_t padding1;
uint8_t padding2;
uint8_t ledpin0;
uint8_t ledpin1;
uint8_t ledpin2;
uint8_t padding8_4;
uint8_t pllgfxclkspreadenabled;
uint8_t pllgfxclkspreadpercent;
uint16_t pllgfxclkspreadfreq;
uint8_t uclkspreadenabled;
uint8_t uclkspreadpercent;
uint16_t uclkspreadfreq;
uint8_t fclkspreadenabled;
uint8_t fclkspreadpercent;
uint16_t fclkspreadfreq;
uint8_t fllgfxclkspreadenabled;
uint8_t fllgfxclkspreadpercent;
uint16_t fllgfxclkspreadfreq;
struct smudpm_i2ccontrollerconfig_t i2ccontrollers[7];
uint32_t boardreserved[10];
};
enum smudpm_v4_5_i2ccontrollername_e{
SMC_V4_5_I2C_CONTROLLER_NAME_VR_GFX = 0,
SMC_V4_5_I2C_CONTROLLER_NAME_VR_SOC,
SMC_V4_5_I2C_CONTROLLER_NAME_VR_VDDCI,
SMC_V4_5_I2C_CONTROLLER_NAME_VR_MVDD,
SMC_V4_5_I2C_CONTROLLER_NAME_LIQUID0,
SMC_V4_5_I2C_CONTROLLER_NAME_LIQUID1,
SMC_V4_5_I2C_CONTROLLER_NAME_PLX,
SMC_V4_5_I2C_CONTROLLER_NAME_SPARE,
SMC_V4_5_I2C_CONTROLLER_NAME_COUNT,
};
enum smudpm_v4_5_i2ccontrollerthrottler_e{
SMC_V4_5_I2C_CONTROLLER_THROTTLER_TYPE_NONE = 0,
SMC_V4_5_I2C_CONTROLLER_THROTTLER_VR_GFX,
SMC_V4_5_I2C_CONTROLLER_THROTTLER_VR_SOC,
SMC_V4_5_I2C_CONTROLLER_THROTTLER_VR_VDDCI,
SMC_V4_5_I2C_CONTROLLER_THROTTLER_VR_MVDD,
SMC_V4_5_I2C_CONTROLLER_THROTTLER_LIQUID0,
SMC_V4_5_I2C_CONTROLLER_THROTTLER_LIQUID1,
SMC_V4_5_I2C_CONTROLLER_THROTTLER_PLX,
SMC_V4_5_I2C_CONTROLLER_THROTTLER_COUNT,
};
enum smudpm_v4_5_i2ccontrollerprotocol_e{
SMC_V4_5_I2C_CONTROLLER_PROTOCOL_VR_0,
SMC_V4_5_I2C_CONTROLLER_PROTOCOL_VR_1,
SMC_V4_5_I2C_CONTROLLER_PROTOCOL_TMP_0,
SMC_V4_5_I2C_CONTROLLER_PROTOCOL_TMP_1,
SMC_V4_5_I2C_CONTROLLER_PROTOCOL_SPARE_0,
SMC_V4_5_I2C_CONTROLLER_PROTOCOL_SPARE_1,
SMC_V4_5_I2C_CONTROLLER_PROTOCOL_COUNT,
};
struct smudpm_i2c_controller_config_v2
{
uint8_t Enabled;
uint8_t Speed;
uint8_t Padding[2];
uint32_t SlaveAddress;
uint8_t ControllerPort;
uint8_t ControllerName;
uint8_t ThermalThrotter;
uint8_t I2cProtocol;
};
struct atom_smc_dpm_info_v4_5
{
struct atom_common_table_header table_header;
// SECTION: BOARD PARAMETERS
// I2C Control
struct smudpm_i2c_controller_config_v2 I2cControllers[8];
// SVI2 Board Parameters
uint16_t MaxVoltageStepGfx; // In mV(Q2) Max voltage step that SMU will request. Multiple steps are taken if voltage change exceeds this value.
uint16_t MaxVoltageStepSoc; // In mV(Q2) Max voltage step that SMU will request. Multiple steps are taken if voltage change exceeds this value.
uint8_t VddGfxVrMapping; // Use VR_MAPPING* bitfields
uint8_t VddSocVrMapping; // Use VR_MAPPING* bitfields
uint8_t VddMem0VrMapping; // Use VR_MAPPING* bitfields
uint8_t VddMem1VrMapping; // Use VR_MAPPING* bitfields
uint8_t GfxUlvPhaseSheddingMask; // set this to 1 to set PSI0/1 to 1 in ULV mode
uint8_t SocUlvPhaseSheddingMask; // set this to 1 to set PSI0/1 to 1 in ULV mode
uint8_t ExternalSensorPresent; // External RDI connected to TMON (aka TEMP IN)
uint8_t Padding8_V;
// Telemetry Settings
uint16_t GfxMaxCurrent; // in Amps
uint8_t GfxOffset; // in Amps
uint8_t Padding_TelemetryGfx;
uint16_t SocMaxCurrent; // in Amps
uint8_t SocOffset; // in Amps
uint8_t Padding_TelemetrySoc;
uint16_t Mem0MaxCurrent; // in Amps
uint8_t Mem0Offset; // in Amps
uint8_t Padding_TelemetryMem0;
uint16_t Mem1MaxCurrent; // in Amps
uint8_t Mem1Offset; // in Amps
uint8_t Padding_TelemetryMem1;
// GPIO Settings
uint8_t AcDcGpio; // GPIO pin configured for AC/DC switching
uint8_t AcDcPolarity; // GPIO polarity for AC/DC switching
uint8_t VR0HotGpio; // GPIO pin configured for VR0 HOT event
uint8_t VR0HotPolarity; // GPIO polarity for VR0 HOT event
uint8_t VR1HotGpio; // GPIO pin configured for VR1 HOT event
uint8_t VR1HotPolarity; // GPIO polarity for VR1 HOT event
uint8_t GthrGpio; // GPIO pin configured for GTHR Event
uint8_t GthrPolarity; // replace GPIO polarity for GTHR
// LED Display Settings
uint8_t LedPin0; // GPIO number for LedPin[0]
uint8_t LedPin1; // GPIO number for LedPin[1]
uint8_t LedPin2; // GPIO number for LedPin[2]
uint8_t padding8_4;
// GFXCLK PLL Spread Spectrum
uint8_t PllGfxclkSpreadEnabled; // on or off
uint8_t PllGfxclkSpreadPercent; // Q4.4
uint16_t PllGfxclkSpreadFreq; // kHz
// GFXCLK DFLL Spread Spectrum
uint8_t DfllGfxclkSpreadEnabled; // on or off
uint8_t DfllGfxclkSpreadPercent; // Q4.4
uint16_t DfllGfxclkSpreadFreq; // kHz
// UCLK Spread Spectrum
uint8_t UclkSpreadEnabled; // on or off
uint8_t UclkSpreadPercent; // Q4.4
uint16_t UclkSpreadFreq; // kHz
// SOCCLK Spread Spectrum
uint8_t SoclkSpreadEnabled; // on or off
uint8_t SocclkSpreadPercent; // Q4.4
uint16_t SocclkSpreadFreq; // kHz
// Total board power
uint16_t TotalBoardPower; //Only needed for TCP Estimated case, where TCP = TGP+Total Board Power
uint16_t BoardPadding;
// Mvdd Svi2 Div Ratio Setting
uint32_t MvddRatio; // This is used for MVDD Vid workaround. It has 16 fractional bits (Q16.16)
uint32_t BoardReserved[9];
};
struct atom_smc_dpm_info_v4_6
{
struct atom_common_table_header table_header;
// section: board parameters
uint32_t i2c_padding[3]; // old i2c control are moved to new area
uint16_t maxvoltagestepgfx; // in mv(q2) max voltage step that smu will request. multiple steps are taken if voltage change exceeds this value.
uint16_t maxvoltagestepsoc; // in mv(q2) max voltage step that smu will request. multiple steps are taken if voltage change exceeds this value.
uint8_t vddgfxvrmapping; // use vr_mapping* bitfields
uint8_t vddsocvrmapping; // use vr_mapping* bitfields
uint8_t vddmemvrmapping; // use vr_mapping* bitfields
uint8_t boardvrmapping; // use vr_mapping* bitfields
uint8_t gfxulvphasesheddingmask; // set this to 1 to set psi0/1 to 1 in ulv mode
uint8_t externalsensorpresent; // external rdi connected to tmon (aka temp in)
uint8_t padding8_v[2];
// telemetry settings
uint16_t gfxmaxcurrent; // in amps
uint8_t gfxoffset; // in amps
uint8_t padding_telemetrygfx;
uint16_t socmaxcurrent; // in amps
uint8_t socoffset; // in amps
uint8_t padding_telemetrysoc;
uint16_t memmaxcurrent; // in amps
uint8_t memoffset; // in amps
uint8_t padding_telemetrymem;
uint16_t boardmaxcurrent; // in amps
uint8_t boardoffset; // in amps
uint8_t padding_telemetryboardinput;
// gpio settings
uint8_t vr0hotgpio; // gpio pin configured for vr0 hot event
uint8_t vr0hotpolarity; // gpio polarity for vr0 hot event
uint8_t vr1hotgpio; // gpio pin configured for vr1 hot event
uint8_t vr1hotpolarity; // gpio polarity for vr1 hot event
// gfxclk pll spread spectrum
uint8_t pllgfxclkspreadenabled; // on or off
uint8_t pllgfxclkspreadpercent; // q4.4
uint16_t pllgfxclkspreadfreq; // khz
// uclk spread spectrum
uint8_t uclkspreadenabled; // on or off
uint8_t uclkspreadpercent; // q4.4
uint16_t uclkspreadfreq; // khz
// fclk spread spectrum
uint8_t fclkspreadenabled; // on or off
uint8_t fclkspreadpercent; // q4.4
uint16_t fclkspreadfreq; // khz
// gfxclk fll spread spectrum
uint8_t fllgfxclkspreadenabled; // on or off
uint8_t fllgfxclkspreadpercent; // q4.4
uint16_t fllgfxclkspreadfreq; // khz
// i2c controller structure
struct smudpm_i2c_controller_config_v2 i2ccontrollers[8];
// memory section
uint32_t memorychannelenabled; // for dram use only, max 32 channels enabled bit mask.
uint8_t drambitwidth; // for dram use only. see dram bit width type defines
uint8_t paddingmem[3];
// total board power
uint16_t totalboardpower; //only needed for tcp estimated case, where tcp = tgp+total board power
uint16_t boardpadding;
// section: xgmi training
uint8_t xgmilinkspeed[4];
uint8_t xgmilinkwidth[4];
uint16_t xgmifclkfreq[4];
uint16_t xgmisocvoltage[4];
// reserved
uint32_t boardreserved[10];
};
struct atom_smc_dpm_info_v4_7
{
struct atom_common_table_header table_header;
// SECTION: BOARD PARAMETERS
// I2C Control
struct smudpm_i2c_controller_config_v2 I2cControllers[8];
// SVI2 Board Parameters
uint16_t MaxVoltageStepGfx; // In mV(Q2) Max voltage step that SMU will request. Multiple steps are taken if voltage change exceeds this value.
uint16_t MaxVoltageStepSoc; // In mV(Q2) Max voltage step that SMU will request. Multiple steps are taken if voltage change exceeds this value.
uint8_t VddGfxVrMapping; // Use VR_MAPPING* bitfields
uint8_t VddSocVrMapping; // Use VR_MAPPING* bitfields
uint8_t VddMem0VrMapping; // Use VR_MAPPING* bitfields
uint8_t VddMem1VrMapping; // Use VR_MAPPING* bitfields
uint8_t GfxUlvPhaseSheddingMask; // set this to 1 to set PSI0/1 to 1 in ULV mode
uint8_t SocUlvPhaseSheddingMask; // set this to 1 to set PSI0/1 to 1 in ULV mode
uint8_t ExternalSensorPresent; // External RDI connected to TMON (aka TEMP IN)
uint8_t Padding8_V;
// Telemetry Settings
uint16_t GfxMaxCurrent; // in Amps
uint8_t GfxOffset; // in Amps
uint8_t Padding_TelemetryGfx;
uint16_t SocMaxCurrent; // in Amps
uint8_t SocOffset; // in Amps
uint8_t Padding_TelemetrySoc;
uint16_t Mem0MaxCurrent; // in Amps
uint8_t Mem0Offset; // in Amps
uint8_t Padding_TelemetryMem0;
uint16_t Mem1MaxCurrent; // in Amps
uint8_t Mem1Offset; // in Amps
uint8_t Padding_TelemetryMem1;
// GPIO Settings
uint8_t AcDcGpio; // GPIO pin configured for AC/DC switching
uint8_t AcDcPolarity; // GPIO polarity for AC/DC switching
uint8_t VR0HotGpio; // GPIO pin configured for VR0 HOT event
uint8_t VR0HotPolarity; // GPIO polarity for VR0 HOT event
uint8_t VR1HotGpio; // GPIO pin configured for VR1 HOT event
uint8_t VR1HotPolarity; // GPIO polarity for VR1 HOT event
uint8_t GthrGpio; // GPIO pin configured for GTHR Event
uint8_t GthrPolarity; // replace GPIO polarity for GTHR
// LED Display Settings
uint8_t LedPin0; // GPIO number for LedPin[0]
uint8_t LedPin1; // GPIO number for LedPin[1]
uint8_t LedPin2; // GPIO number for LedPin[2]
uint8_t padding8_4;
// GFXCLK PLL Spread Spectrum
uint8_t PllGfxclkSpreadEnabled; // on or off
uint8_t PllGfxclkSpreadPercent; // Q4.4
uint16_t PllGfxclkSpreadFreq; // kHz
// GFXCLK DFLL Spread Spectrum
uint8_t DfllGfxclkSpreadEnabled; // on or off
uint8_t DfllGfxclkSpreadPercent; // Q4.4
uint16_t DfllGfxclkSpreadFreq; // kHz
// UCLK Spread Spectrum
uint8_t UclkSpreadEnabled; // on or off
uint8_t UclkSpreadPercent; // Q4.4
uint16_t UclkSpreadFreq; // kHz
// SOCCLK Spread Spectrum
uint8_t SoclkSpreadEnabled; // on or off
uint8_t SocclkSpreadPercent; // Q4.4
uint16_t SocclkSpreadFreq; // kHz
// Total board power
uint16_t TotalBoardPower; //Only needed for TCP Estimated case, where TCP = TGP+Total Board Power
uint16_t BoardPadding;
// Mvdd Svi2 Div Ratio Setting
uint32_t MvddRatio; // This is used for MVDD Vid workaround. It has 16 fractional bits (Q16.16)
// GPIO pins for I2C communications with 2nd controller for Input Telemetry Sequence
uint8_t GpioI2cScl; // Serial Clock
uint8_t GpioI2cSda; // Serial Data
uint16_t GpioPadding;
// Additional LED Display Settings
uint8_t LedPin3; // GPIO number for LedPin[3] - PCIE GEN Speed
uint8_t LedPin4; // GPIO number for LedPin[4] - PMFW Error Status
uint16_t LedEnableMask;
// Power Limit Scalars
uint8_t PowerLimitScalar[4]; //[PPT_THROTTLER_COUNT]
uint8_t MvddUlvPhaseSheddingMask;
uint8_t VddciUlvPhaseSheddingMask;
uint8_t Padding8_Psi1;
uint8_t Padding8_Psi2;
uint32_t BoardReserved[5];
};
struct smudpm_i2c_controller_config_v3
{
uint8_t Enabled;
uint8_t Speed;
uint8_t SlaveAddress;
uint8_t ControllerPort;
uint8_t ControllerName;
uint8_t ThermalThrotter;
uint8_t I2cProtocol;
uint8_t PaddingConfig;
};
struct atom_smc_dpm_info_v4_9
{
struct atom_common_table_header table_header;
//SECTION: Gaming Clocks
//uint32_t GamingClk[6];
// SECTION: I2C Control
struct smudpm_i2c_controller_config_v3 I2cControllers[16];
uint8_t GpioScl; // GPIO Number for SCL Line, used only for CKSVII2C1
uint8_t GpioSda; // GPIO Number for SDA Line, used only for CKSVII2C1
uint8_t FchUsbPdSlaveAddr; //For requesting USB PD controller S-states via FCH I2C when entering PME turn off
uint8_t I2cSpare;
// SECTION: SVI2 Board Parameters
uint8_t VddGfxVrMapping; // Use VR_MAPPING* bitfields
uint8_t VddSocVrMapping; // Use VR_MAPPING* bitfields
uint8_t VddMem0VrMapping; // Use VR_MAPPING* bitfields
uint8_t VddMem1VrMapping; // Use VR_MAPPING* bitfields
uint8_t GfxUlvPhaseSheddingMask; // set this to 1 to set PSI0/1 to 1 in ULV mode
uint8_t SocUlvPhaseSheddingMask; // set this to 1 to set PSI0/1 to 1 in ULV mode
uint8_t VddciUlvPhaseSheddingMask; // set this to 1 to set PSI0/1 to 1 in ULV mode
uint8_t MvddUlvPhaseSheddingMask; // set this to 1 to set PSI0/1 to 1 in ULV mode
// SECTION: Telemetry Settings
uint16_t GfxMaxCurrent; // in Amps
uint8_t GfxOffset; // in Amps
uint8_t Padding_TelemetryGfx;
uint16_t SocMaxCurrent; // in Amps
uint8_t SocOffset; // in Amps
uint8_t Padding_TelemetrySoc;
uint16_t Mem0MaxCurrent; // in Amps
uint8_t Mem0Offset; // in Amps
uint8_t Padding_TelemetryMem0;
uint16_t Mem1MaxCurrent; // in Amps
uint8_t Mem1Offset; // in Amps
uint8_t Padding_TelemetryMem1;
uint32_t MvddRatio; // This is used for MVDD Svi2 Div Ratio workaround. It has 16 fractional bits (Q16.16)
// SECTION: GPIO Settings
uint8_t AcDcGpio; // GPIO pin configured for AC/DC switching
uint8_t AcDcPolarity; // GPIO polarity for AC/DC switching
uint8_t VR0HotGpio; // GPIO pin configured for VR0 HOT event
uint8_t VR0HotPolarity; // GPIO polarity for VR0 HOT event
uint8_t VR1HotGpio; // GPIO pin configured for VR1 HOT event
uint8_t VR1HotPolarity; // GPIO polarity for VR1 HOT event
uint8_t GthrGpio; // GPIO pin configured for GTHR Event
uint8_t GthrPolarity; // replace GPIO polarity for GTHR
// LED Display Settings
uint8_t LedPin0; // GPIO number for LedPin[0]
uint8_t LedPin1; // GPIO number for LedPin[1]
uint8_t LedPin2; // GPIO number for LedPin[2]
uint8_t LedEnableMask;
uint8_t LedPcie; // GPIO number for PCIE results
uint8_t LedError; // GPIO number for Error Cases
uint8_t LedSpare1[2];
// SECTION: Clock Spread Spectrum
// GFXCLK PLL Spread Spectrum
uint8_t PllGfxclkSpreadEnabled; // on or off
uint8_t PllGfxclkSpreadPercent; // Q4.4
uint16_t PllGfxclkSpreadFreq; // kHz
// GFXCLK DFLL Spread Spectrum
uint8_t DfllGfxclkSpreadEnabled; // on or off
uint8_t DfllGfxclkSpreadPercent; // Q4.4
uint16_t DfllGfxclkSpreadFreq; // kHz
// UCLK Spread Spectrum
uint8_t UclkSpreadEnabled; // on or off
uint8_t UclkSpreadPercent; // Q4.4
uint16_t UclkSpreadFreq; // kHz
// FCLK Spread Spectrum
uint8_t FclkSpreadEnabled; // on or off
uint8_t FclkSpreadPercent; // Q4.4
uint16_t FclkSpreadFreq; // kHz
// Section: Memory Config
uint32_t MemoryChannelEnabled; // For DRAM use only, Max 32 channels enabled bit mask.
uint8_t DramBitWidth; // For DRAM use only. See Dram Bit width type defines
uint8_t PaddingMem1[3];
// Section: Total Board Power
uint16_t TotalBoardPower; //Only needed for TCP Estimated case, where TCP = TGP+Total Board Power
uint16_t BoardPowerPadding;
// SECTION: XGMI Training
uint8_t XgmiLinkSpeed [4];
uint8_t XgmiLinkWidth [4];
uint16_t XgmiFclkFreq [4];
uint16_t XgmiSocVoltage [4];
// SECTION: Board Reserved
uint32_t BoardReserved[16];
};
struct atom_smc_dpm_info_v4_10
{
struct atom_common_table_header table_header;
// SECTION: BOARD PARAMETERS
// Telemetry Settings
uint16_t GfxMaxCurrent; // in Amps
uint8_t GfxOffset; // in Amps
uint8_t Padding_TelemetryGfx;
uint16_t SocMaxCurrent; // in Amps
uint8_t SocOffset; // in Amps
uint8_t Padding_TelemetrySoc;
uint16_t MemMaxCurrent; // in Amps
uint8_t MemOffset; // in Amps
uint8_t Padding_TelemetryMem;
uint16_t BoardMaxCurrent; // in Amps
uint8_t BoardOffset; // in Amps
uint8_t Padding_TelemetryBoardInput;
// Platform input telemetry voltage coefficient
uint32_t BoardVoltageCoeffA; // decode by /1000
uint32_t BoardVoltageCoeffB; // decode by /1000
// GPIO Settings
uint8_t VR0HotGpio; // GPIO pin configured for VR0 HOT event
uint8_t VR0HotPolarity; // GPIO polarity for VR0 HOT event
uint8_t VR1HotGpio; // GPIO pin configured for VR1 HOT event
uint8_t VR1HotPolarity; // GPIO polarity for VR1 HOT event
// UCLK Spread Spectrum
uint8_t UclkSpreadEnabled; // on or off
uint8_t UclkSpreadPercent; // Q4.4
uint16_t UclkSpreadFreq; // kHz
// FCLK Spread Spectrum
uint8_t FclkSpreadEnabled; // on or off
uint8_t FclkSpreadPercent; // Q4.4
uint16_t FclkSpreadFreq; // kHz
// I2C Controller Structure
struct smudpm_i2c_controller_config_v3 I2cControllers[8];
// GPIO pins for I2C communications with 2nd controller for Input Telemetry Sequence
uint8_t GpioI2cScl; // Serial Clock
uint8_t GpioI2cSda; // Serial Data
uint16_t spare5;
uint32_t reserved[16];
};
/*
***************************************************************************
Data Table asic_profiling_info structure
***************************************************************************
*/
struct atom_asic_profiling_info_v4_1
{
struct atom_common_table_header table_header;
uint32_t maxvddc;
uint32_t minvddc;
uint32_t avfs_meannsigma_acontant0;
uint32_t avfs_meannsigma_acontant1;
uint32_t avfs_meannsigma_acontant2;
uint16_t avfs_meannsigma_dc_tol_sigma;
uint16_t avfs_meannsigma_platform_mean;
uint16_t avfs_meannsigma_platform_sigma;
uint32_t gb_vdroop_table_cksoff_a0;
uint32_t gb_vdroop_table_cksoff_a1;
uint32_t gb_vdroop_table_cksoff_a2;
uint32_t gb_vdroop_table_ckson_a0;
uint32_t gb_vdroop_table_ckson_a1;
uint32_t gb_vdroop_table_ckson_a2;
uint32_t avfsgb_fuse_table_cksoff_m1;
uint32_t avfsgb_fuse_table_cksoff_m2;
uint32_t avfsgb_fuse_table_cksoff_b;
uint32_t avfsgb_fuse_table_ckson_m1;
uint32_t avfsgb_fuse_table_ckson_m2;
uint32_t avfsgb_fuse_table_ckson_b;
uint16_t max_voltage_0_25mv;
uint8_t enable_gb_vdroop_table_cksoff;
uint8_t enable_gb_vdroop_table_ckson;
uint8_t enable_gb_fuse_table_cksoff;
uint8_t enable_gb_fuse_table_ckson;
uint16_t psm_age_comfactor;
uint8_t enable_apply_avfs_cksoff_voltage;
uint8_t reserved;
uint32_t dispclk2gfxclk_a;
uint32_t dispclk2gfxclk_b;
uint32_t dispclk2gfxclk_c;
uint32_t pixclk2gfxclk_a;
uint32_t pixclk2gfxclk_b;
uint32_t pixclk2gfxclk_c;
uint32_t dcefclk2gfxclk_a;
uint32_t dcefclk2gfxclk_b;
uint32_t dcefclk2gfxclk_c;
uint32_t phyclk2gfxclk_a;
uint32_t phyclk2gfxclk_b;
uint32_t phyclk2gfxclk_c;
};
struct atom_asic_profiling_info_v4_2 {
struct atom_common_table_header table_header;
uint32_t maxvddc;
uint32_t minvddc;
uint32_t avfs_meannsigma_acontant0;
uint32_t avfs_meannsigma_acontant1;
uint32_t avfs_meannsigma_acontant2;
uint16_t avfs_meannsigma_dc_tol_sigma;
uint16_t avfs_meannsigma_platform_mean;
uint16_t avfs_meannsigma_platform_sigma;
uint32_t gb_vdroop_table_cksoff_a0;
uint32_t gb_vdroop_table_cksoff_a1;
uint32_t gb_vdroop_table_cksoff_a2;
uint32_t gb_vdroop_table_ckson_a0;
uint32_t gb_vdroop_table_ckson_a1;
uint32_t gb_vdroop_table_ckson_a2;
uint32_t avfsgb_fuse_table_cksoff_m1;
uint32_t avfsgb_fuse_table_cksoff_m2;
uint32_t avfsgb_fuse_table_cksoff_b;
uint32_t avfsgb_fuse_table_ckson_m1;
uint32_t avfsgb_fuse_table_ckson_m2;
uint32_t avfsgb_fuse_table_ckson_b;
uint16_t max_voltage_0_25mv;
uint8_t enable_gb_vdroop_table_cksoff;
uint8_t enable_gb_vdroop_table_ckson;
uint8_t enable_gb_fuse_table_cksoff;
uint8_t enable_gb_fuse_table_ckson;
uint16_t psm_age_comfactor;
uint8_t enable_apply_avfs_cksoff_voltage;
uint8_t reserved;
uint32_t dispclk2gfxclk_a;
uint32_t dispclk2gfxclk_b;
uint32_t dispclk2gfxclk_c;
uint32_t pixclk2gfxclk_a;
uint32_t pixclk2gfxclk_b;
uint32_t pixclk2gfxclk_c;
uint32_t dcefclk2gfxclk_a;
uint32_t dcefclk2gfxclk_b;
uint32_t dcefclk2gfxclk_c;
uint32_t phyclk2gfxclk_a;
uint32_t phyclk2gfxclk_b;
uint32_t phyclk2gfxclk_c;
uint32_t acg_gb_vdroop_table_a0;
uint32_t acg_gb_vdroop_table_a1;
uint32_t acg_gb_vdroop_table_a2;
uint32_t acg_avfsgb_fuse_table_m1;
uint32_t acg_avfsgb_fuse_table_m2;
uint32_t acg_avfsgb_fuse_table_b;
uint8_t enable_acg_gb_vdroop_table;
uint8_t enable_acg_gb_fuse_table;
uint32_t acg_dispclk2gfxclk_a;
uint32_t acg_dispclk2gfxclk_b;
uint32_t acg_dispclk2gfxclk_c;
uint32_t acg_pixclk2gfxclk_a;
uint32_t acg_pixclk2gfxclk_b;
uint32_t acg_pixclk2gfxclk_c;
uint32_t acg_dcefclk2gfxclk_a;
uint32_t acg_dcefclk2gfxclk_b;
uint32_t acg_dcefclk2gfxclk_c;
uint32_t acg_phyclk2gfxclk_a;
uint32_t acg_phyclk2gfxclk_b;
uint32_t acg_phyclk2gfxclk_c;
};
/*
***************************************************************************
Data Table multimedia_info structure
***************************************************************************
*/
struct atom_multimedia_info_v2_1
{
struct atom_common_table_header table_header;
uint8_t uvdip_min_ver;
uint8_t uvdip_max_ver;
uint8_t vceip_min_ver;
uint8_t vceip_max_ver;
uint16_t uvd_enc_max_input_width_pixels;
uint16_t uvd_enc_max_input_height_pixels;
uint16_t vce_enc_max_input_width_pixels;
uint16_t vce_enc_max_input_height_pixels;
uint32_t uvd_enc_max_bandwidth; // 16x16 pixels/sec, codec independent
uint32_t vce_enc_max_bandwidth; // 16x16 pixels/sec, codec independent
};
/*
***************************************************************************
Data Table umc_info structure
***************************************************************************
*/
struct atom_umc_info_v3_1
{
struct atom_common_table_header table_header;
uint32_t ucode_version;
uint32_t ucode_rom_startaddr;
uint32_t ucode_length;
uint16_t umc_reg_init_offset;
uint16_t customer_ucode_name_offset;
uint16_t mclk_ss_percentage;
uint16_t mclk_ss_rate_10hz;
uint8_t umcip_min_ver;
uint8_t umcip_max_ver;
uint8_t vram_type; //enum of atom_dgpu_vram_type
uint8_t umc_config;
uint32_t mem_refclk_10khz;
};
// umc_info.umc_config
enum atom_umc_config_def {
UMC_CONFIG__ENABLE_1KB_INTERLEAVE_MODE = 0x00000001,
UMC_CONFIG__DEFAULT_MEM_ECC_ENABLE = 0x00000002,
UMC_CONFIG__ENABLE_HBM_LANE_REPAIR = 0x00000004,
UMC_CONFIG__ENABLE_BANK_HARVESTING = 0x00000008,
UMC_CONFIG__ENABLE_PHY_REINIT = 0x00000010,
UMC_CONFIG__DISABLE_UCODE_CHKSTATUS = 0x00000020,
};
struct atom_umc_info_v3_2
{
struct atom_common_table_header table_header;
uint32_t ucode_version;
uint32_t ucode_rom_startaddr;
uint32_t ucode_length;
uint16_t umc_reg_init_offset;
uint16_t customer_ucode_name_offset;
uint16_t mclk_ss_percentage;
uint16_t mclk_ss_rate_10hz;
uint8_t umcip_min_ver;
uint8_t umcip_max_ver;
uint8_t vram_type; //enum of atom_dgpu_vram_type
uint8_t umc_config;
uint32_t mem_refclk_10khz;
uint32_t pstate_uclk_10khz[4];
uint16_t umcgoldenoffset;
uint16_t densitygoldenoffset;
};
struct atom_umc_info_v3_3
{
struct atom_common_table_header table_header;
uint32_t ucode_reserved;
uint32_t ucode_rom_startaddr;
uint32_t ucode_length;
uint16_t umc_reg_init_offset;
uint16_t customer_ucode_name_offset;
uint16_t mclk_ss_percentage;
uint16_t mclk_ss_rate_10hz;
uint8_t umcip_min_ver;
uint8_t umcip_max_ver;
uint8_t vram_type; //enum of atom_dgpu_vram_type
uint8_t umc_config;
uint32_t mem_refclk_10khz;
uint32_t pstate_uclk_10khz[4];
uint16_t umcgoldenoffset;
uint16_t densitygoldenoffset;
uint32_t umc_config1;
uint32_t bist_data_startaddr;
uint32_t reserved[2];
};
enum atom_umc_config1_def {
UMC_CONFIG1__ENABLE_PSTATE_PHASE_STORE_TRAIN = 0x00000001,
UMC_CONFIG1__ENABLE_AUTO_FRAMING = 0x00000002,
UMC_CONFIG1__ENABLE_RESTORE_BIST_DATA = 0x00000004,
UMC_CONFIG1__DISABLE_STROBE_MODE = 0x00000008,
UMC_CONFIG1__DEBUG_DATA_PARITY_EN = 0x00000010,
UMC_CONFIG1__ENABLE_ECC_CAPABLE = 0x00010000,
};
/*
***************************************************************************
Data Table vram_info structure
***************************************************************************
*/
struct atom_vram_module_v9 {
// Design Specific Values
uint32_t memory_size; // Total memory size in unit of MB for CONFIG_MEMSIZE zeros
uint32_t channel_enable; // bit vector, each bit indicate specific channel enable or not
uint32_t max_mem_clk; // max memory clock of this memory in unit of 10kHz, =0 means it is not defined
uint16_t reserved[3];
uint16_t mem_voltage; // mem_voltage
uint16_t vram_module_size; // Size of atom_vram_module_v9
uint8_t ext_memory_id; // Current memory module ID
uint8_t memory_type; // enum of atom_dgpu_vram_type
uint8_t channel_num; // Number of mem. channels supported in this module
uint8_t channel_width; // CHANNEL_16BIT/CHANNEL_32BIT/CHANNEL_64BIT
uint8_t density; // _8Mx32, _16Mx32, _16Mx16, _32Mx16
uint8_t tunningset_id; // MC phy registers set per.
uint8_t vender_rev_id; // [7:4] Revision, [3:0] Vendor code
uint8_t refreshrate; // [1:0]=RefreshFactor (00=8ms, 01=16ms, 10=32ms,11=64ms)
uint8_t hbm_ven_rev_id; // hbm_ven_rev_id
uint8_t vram_rsd2; // reserved
char dram_pnstring[20]; // part number end with '0'.
};
struct atom_vram_info_header_v2_3 {
struct atom_common_table_header table_header;
uint16_t mem_adjust_tbloffset; // offset of atom_umc_init_reg_block structure for memory vendor specific UMC adjust setting
uint16_t mem_clk_patch_tbloffset; // offset of atom_umc_init_reg_block structure for memory clock specific UMC setting
uint16_t mc_adjust_pertile_tbloffset; // offset of atom_umc_init_reg_block structure for Per Byte Offset Preset Settings
uint16_t mc_phyinit_tbloffset; // offset of atom_umc_init_reg_block structure for MC phy init set
uint16_t dram_data_remap_tbloffset; // reserved for now
uint16_t tmrs_seq_offset; // offset of HBM tmrs
uint16_t post_ucode_init_offset; // offset of atom_umc_init_reg_block structure for MC phy init after MC uCode complete umc init
uint16_t vram_rsd2;
uint8_t vram_module_num; // indicate number of VRAM module
uint8_t umcip_min_ver;
uint8_t umcip_max_ver;
uint8_t mc_phy_tile_num; // indicate the MCD tile number which use in DramDataRemapTbl and usMcAdjustPerTileTblOffset
struct atom_vram_module_v9 vram_module[16]; // just for allocation, real number of blocks is in ucNumOfVRAMModule;
};
/*
***************************************************************************
Data Table vram_info v3.0 structure
***************************************************************************
*/
struct atom_vram_module_v3_0 {
uint8_t density;
uint8_t tunningset_id;
uint8_t ext_memory_id;
uint8_t dram_vendor_id;
uint16_t dram_info_offset;
uint16_t mem_tuning_offset;
uint16_t tmrs_seq_offset;
uint16_t reserved1;
uint32_t dram_size_per_ch;
uint32_t reserved[3];
char dram_pnstring[40];
};
struct atom_vram_info_header_v3_0 {
struct atom_common_table_header table_header;
uint16_t mem_tuning_table_offset;
uint16_t dram_info_table_offset;
uint16_t tmrs_table_offset;
uint16_t mc_init_table_offset;
uint16_t dram_data_remap_table_offset;
uint16_t umc_emuinittable_offset;
uint16_t reserved_sub_table_offset[2];
uint8_t vram_module_num;
uint8_t umcip_min_ver;
uint8_t umcip_max_ver;
uint8_t mc_phy_tile_num;
uint8_t memory_type;
uint8_t channel_num;
uint8_t channel_width;
uint8_t reserved1;
uint32_t channel_enable;
uint32_t channel1_enable;
uint32_t feature_enable;
uint32_t feature1_enable;
uint32_t hardcode_mem_size;
uint32_t reserved4[4];
struct atom_vram_module_v3_0 vram_module[8];
};
struct atom_umc_register_addr_info{
uint32_t umc_register_addr:24;
uint32_t umc_reg_type_ind:1;
uint32_t umc_reg_rsvd:7;
};
//atom_umc_register_addr_info.
enum atom_umc_register_addr_info_flag{
b3ATOM_UMC_REG_ADD_INFO_INDIRECT_ACCESS =0x01,
};
union atom_umc_register_addr_info_access
{
struct atom_umc_register_addr_info umc_reg_addr;
uint32_t u32umc_reg_addr;
};
struct atom_umc_reg_setting_id_config{
uint32_t memclockrange:24;
uint32_t mem_blk_id:8;
};
union atom_umc_reg_setting_id_config_access
{
struct atom_umc_reg_setting_id_config umc_id_access;
uint32_t u32umc_id_access;
};
struct atom_umc_reg_setting_data_block{
union atom_umc_reg_setting_id_config_access block_id;
uint32_t u32umc_reg_data[1];
};
struct atom_umc_init_reg_block{
uint16_t umc_reg_num;
uint16_t reserved;
union atom_umc_register_addr_info_access umc_reg_list[1]; //for allocation purpose, the real number come from umc_reg_num;
struct atom_umc_reg_setting_data_block umc_reg_setting_list[1];
};
struct atom_vram_module_v10 {
// Design Specific Values
uint32_t memory_size; // Total memory size in unit of MB for CONFIG_MEMSIZE zeros
uint32_t channel_enable; // bit vector, each bit indicate specific channel enable or not
uint32_t max_mem_clk; // max memory clock of this memory in unit of 10kHz, =0 means it is not defined
uint16_t reserved[3];
uint16_t mem_voltage; // mem_voltage
uint16_t vram_module_size; // Size of atom_vram_module_v9
uint8_t ext_memory_id; // Current memory module ID
uint8_t memory_type; // enum of atom_dgpu_vram_type
uint8_t channel_num; // Number of mem. channels supported in this module
uint8_t channel_width; // CHANNEL_16BIT/CHANNEL_32BIT/CHANNEL_64BIT
uint8_t density; // _8Mx32, _16Mx32, _16Mx16, _32Mx16
uint8_t tunningset_id; // MC phy registers set per
uint8_t vender_rev_id; // [7:4] Revision, [3:0] Vendor code
uint8_t refreshrate; // [1:0]=RefreshFactor (00=8ms, 01=16ms, 10=32ms,11=64ms)
uint8_t vram_flags; // bit0= bankgroup enable
uint8_t vram_rsd2; // reserved
uint16_t gddr6_mr10; // gddr6 mode register10 value
uint16_t gddr6_mr1; // gddr6 mode register1 value
uint16_t gddr6_mr2; // gddr6 mode register2 value
uint16_t gddr6_mr7; // gddr6 mode register7 value
char dram_pnstring[20]; // part number end with '0'
};
struct atom_vram_info_header_v2_4 {
struct atom_common_table_header table_header;
uint16_t mem_adjust_tbloffset; // offset of atom_umc_init_reg_block structure for memory vendor specific UMC adjust setting
uint16_t mem_clk_patch_tbloffset; // offset of atom_umc_init_reg_block structure for memory clock specific UMC setting
uint16_t mc_adjust_pertile_tbloffset; // offset of atom_umc_init_reg_block structure for Per Byte Offset Preset Settings
uint16_t mc_phyinit_tbloffset; // offset of atom_umc_init_reg_block structure for MC phy init set
uint16_t dram_data_remap_tbloffset; // reserved for now
uint16_t reserved; // offset of reserved
uint16_t post_ucode_init_offset; // offset of atom_umc_init_reg_block structure for MC phy init after MC uCode complete umc init
uint16_t vram_rsd2;
uint8_t vram_module_num; // indicate number of VRAM module
uint8_t umcip_min_ver;
uint8_t umcip_max_ver;
uint8_t mc_phy_tile_num; // indicate the MCD tile number which use in DramDataRemapTbl and usMcAdjustPerTileTblOffset
struct atom_vram_module_v10 vram_module[16]; // just for allocation, real number of blocks is in ucNumOfVRAMModule;
};
struct atom_vram_module_v11 {
// Design Specific Values
uint32_t memory_size; // Total memory size in unit of MB for CONFIG_MEMSIZE zeros
uint32_t channel_enable; // bit vector, each bit indicate specific channel enable or not
uint16_t mem_voltage; // mem_voltage
uint16_t vram_module_size; // Size of atom_vram_module_v9
uint8_t ext_memory_id; // Current memory module ID
uint8_t memory_type; // enum of atom_dgpu_vram_type
uint8_t channel_num; // Number of mem. channels supported in this module
uint8_t channel_width; // CHANNEL_16BIT/CHANNEL_32BIT/CHANNEL_64BIT
uint8_t density; // _8Mx32, _16Mx32, _16Mx16, _32Mx16
uint8_t tunningset_id; // MC phy registers set per.
uint16_t reserved[4]; // reserved
uint8_t vender_rev_id; // [7:4] Revision, [3:0] Vendor code
uint8_t refreshrate; // [1:0]=RefreshFactor (00=8ms, 01=16ms, 10=32ms,11=64ms)
uint8_t vram_flags; // bit0= bankgroup enable
uint8_t vram_rsd2; // reserved
uint16_t gddr6_mr10; // gddr6 mode register10 value
uint16_t gddr6_mr0; // gddr6 mode register0 value
uint16_t gddr6_mr1; // gddr6 mode register1 value
uint16_t gddr6_mr2; // gddr6 mode register2 value
uint16_t gddr6_mr4; // gddr6 mode register4 value
uint16_t gddr6_mr7; // gddr6 mode register7 value
uint16_t gddr6_mr8; // gddr6 mode register8 value
char dram_pnstring[40]; // part number end with '0'.
};
struct atom_gddr6_ac_timing_v2_5 {
uint32_t u32umc_id_access;
uint8_t RL;
uint8_t WL;
uint8_t tRAS;
uint8_t tRC;
uint16_t tREFI;
uint8_t tRFC;
uint8_t tRFCpb;
uint8_t tRREFD;
uint8_t tRCDRD;
uint8_t tRCDWR;
uint8_t tRP;
uint8_t tRRDS;
uint8_t tRRDL;
uint8_t tWR;
uint8_t tWTRS;
uint8_t tWTRL;
uint8_t tFAW;
uint8_t tCCDS;
uint8_t tCCDL;
uint8_t tCRCRL;
uint8_t tCRCWL;
uint8_t tCKE;
uint8_t tCKSRE;
uint8_t tCKSRX;
uint8_t tRTPS;
uint8_t tRTPL;
uint8_t tMRD;
uint8_t tMOD;
uint8_t tXS;
uint8_t tXHP;
uint8_t tXSMRS;
uint32_t tXSH;
uint8_t tPD;
uint8_t tXP;
uint8_t tCPDED;
uint8_t tACTPDE;
uint8_t tPREPDE;
uint8_t tREFPDE;
uint8_t tMRSPDEN;
uint8_t tRDSRE;
uint8_t tWRSRE;
uint8_t tPPD;
uint8_t tCCDMW;
uint8_t tWTRTR;
uint8_t tLTLTR;
uint8_t tREFTR;
uint8_t VNDR;
uint8_t reserved[9];
};
struct atom_gddr6_bit_byte_remap {
uint32_t dphy_byteremap; //mmUMC_DPHY_ByteRemap
uint32_t dphy_bitremap0; //mmUMC_DPHY_BitRemap0
uint32_t dphy_bitremap1; //mmUMC_DPHY_BitRemap1
uint32_t dphy_bitremap2; //mmUMC_DPHY_BitRemap2
uint32_t aphy_bitremap0; //mmUMC_APHY_BitRemap0
uint32_t aphy_bitremap1; //mmUMC_APHY_BitRemap1
uint32_t phy_dram; //mmUMC_PHY_DRAM
};
struct atom_gddr6_dram_data_remap {
uint32_t table_size;
uint8_t phyintf_ck_inverted[8]; //UMC_PHY_PHYINTF_CNTL.INV_CK
struct atom_gddr6_bit_byte_remap bit_byte_remap[16];
};
struct atom_vram_info_header_v2_5 {
struct atom_common_table_header table_header;
uint16_t mem_adjust_tbloffset; // offset of atom_umc_init_reg_block structure for memory vendor specific UMC adjust settings
uint16_t gddr6_ac_timing_offset; // offset of atom_gddr6_ac_timing_v2_5 structure for memory clock specific UMC settings
uint16_t mc_adjust_pertile_tbloffset; // offset of atom_umc_init_reg_block structure for Per Byte Offset Preset Settings
uint16_t mc_phyinit_tbloffset; // offset of atom_umc_init_reg_block structure for MC phy init set
uint16_t dram_data_remap_tbloffset; // offset of atom_gddr6_dram_data_remap array to indicate DRAM data lane to GPU mapping
uint16_t reserved; // offset of reserved
uint16_t post_ucode_init_offset; // offset of atom_umc_init_reg_block structure for MC phy init after MC uCode complete umc init
uint16_t strobe_mode_patch_tbloffset; // offset of atom_umc_init_reg_block structure for Strobe Mode memory clock specific UMC settings
uint8_t vram_module_num; // indicate number of VRAM module
uint8_t umcip_min_ver;
uint8_t umcip_max_ver;
uint8_t mc_phy_tile_num; // indicate the MCD tile number which use in DramDataRemapTbl and usMcAdjustPerTileTblOffset
struct atom_vram_module_v11 vram_module[16]; // just for allocation, real number of blocks is in ucNumOfVRAMModule;
};
struct atom_vram_info_header_v2_6 {
struct atom_common_table_header table_header;
uint16_t mem_adjust_tbloffset;
uint16_t mem_clk_patch_tbloffset;
uint16_t mc_adjust_pertile_tbloffset;
uint16_t mc_phyinit_tbloffset;
uint16_t dram_data_remap_tbloffset;
uint16_t tmrs_seq_offset;
uint16_t post_ucode_init_offset;
uint16_t vram_rsd2;
uint8_t vram_module_num;
uint8_t umcip_min_ver;
uint8_t umcip_max_ver;
uint8_t mc_phy_tile_num;
struct atom_vram_module_v9 vram_module[16];
};
/*
***************************************************************************
Data Table voltageobject_info structure
***************************************************************************
*/
struct atom_i2c_data_entry
{
uint16_t i2c_reg_index; // i2c register address, can be up to 16bit
uint16_t i2c_reg_data; // i2c register data, can be up to 16bit
};
struct atom_voltage_object_header_v4{
uint8_t voltage_type; //enum atom_voltage_type
uint8_t voltage_mode; //enum atom_voltage_object_mode
uint16_t object_size; //Size of Object
};
// atom_voltage_object_header_v4.voltage_mode
enum atom_voltage_object_mode
{
VOLTAGE_OBJ_GPIO_LUT = 0, //VOLTAGE and GPIO Lookup table ->atom_gpio_voltage_object_v4
VOLTAGE_OBJ_VR_I2C_INIT_SEQ = 3, //VOLTAGE REGULATOR INIT sequece through I2C -> atom_i2c_voltage_object_v4
VOLTAGE_OBJ_PHASE_LUT = 4, //Set Vregulator Phase lookup table ->atom_gpio_voltage_object_v4
VOLTAGE_OBJ_SVID2 = 7, //Indicate voltage control by SVID2 ->atom_svid2_voltage_object_v4
VOLTAGE_OBJ_EVV = 8,
VOLTAGE_OBJ_MERGED_POWER = 9,
};
struct atom_i2c_voltage_object_v4
{
struct atom_voltage_object_header_v4 header; // voltage mode = VOLTAGE_OBJ_VR_I2C_INIT_SEQ
uint8_t regulator_id; //Indicate Voltage Regulator Id
uint8_t i2c_id;
uint8_t i2c_slave_addr;
uint8_t i2c_control_offset;
uint8_t i2c_flag; // Bit0: 0 - One byte data; 1 - Two byte data
uint8_t i2c_speed; // =0, use default i2c speed, otherwise use it in unit of kHz.
uint8_t reserved[2];
struct atom_i2c_data_entry i2cdatalut[1]; // end with 0xff
};
// ATOM_I2C_VOLTAGE_OBJECT_V3.ucVoltageControlFlag
enum atom_i2c_voltage_control_flag
{
VOLTAGE_DATA_ONE_BYTE = 0,
VOLTAGE_DATA_TWO_BYTE = 1,
};
struct atom_voltage_gpio_map_lut
{
uint32_t voltage_gpio_reg_val; // The Voltage ID which is used to program GPIO register
uint16_t voltage_level_mv; // The corresponding Voltage Value, in mV
};
struct atom_gpio_voltage_object_v4
{
struct atom_voltage_object_header_v4 header; // voltage mode = VOLTAGE_OBJ_GPIO_LUT or VOLTAGE_OBJ_PHASE_LUT
uint8_t gpio_control_id; // default is 0 which indicate control through CG VID mode
uint8_t gpio_entry_num; // indiate the entry numbers of Votlage/Gpio value Look up table
uint8_t phase_delay_us; // phase delay in unit of micro second
uint8_t reserved;
uint32_t gpio_mask_val; // GPIO Mask value
struct atom_voltage_gpio_map_lut voltage_gpio_lut[1];
};
struct atom_svid2_voltage_object_v4
{
struct atom_voltage_object_header_v4 header; // voltage mode = VOLTAGE_OBJ_SVID2
uint8_t loadline_psi1; // bit4:0= loadline setting ( Core Loadline trim and offset trim ), bit5=0:PSI1_L disable =1: PSI1_L enable
uint8_t psi0_l_vid_thresd; // VR PSI0_L VID threshold
uint8_t psi0_enable; //
uint8_t maxvstep;
uint8_t telemetry_offset;
uint8_t telemetry_gain;
uint16_t reserved1;
};
struct atom_merged_voltage_object_v4
{
struct atom_voltage_object_header_v4 header; // voltage mode = VOLTAGE_OBJ_MERGED_POWER
uint8_t merged_powerrail_type; //enum atom_voltage_type
uint8_t reserved[3];
};
union atom_voltage_object_v4{
struct atom_gpio_voltage_object_v4 gpio_voltage_obj;
struct atom_i2c_voltage_object_v4 i2c_voltage_obj;
struct atom_svid2_voltage_object_v4 svid2_voltage_obj;
struct atom_merged_voltage_object_v4 merged_voltage_obj;
};
struct atom_voltage_objects_info_v4_1
{
struct atom_common_table_header table_header;
union atom_voltage_object_v4 voltage_object[1]; //Info for Voltage control
};
/*
***************************************************************************
All Command Function structure definition
***************************************************************************
*/
/*
***************************************************************************
Structures used by asic_init
***************************************************************************
*/
struct asic_init_engine_parameters
{
uint32_t sclkfreqin10khz:24;
uint32_t engineflag:8; /* enum atom_asic_init_engine_flag */
};
struct asic_init_mem_parameters
{
uint32_t mclkfreqin10khz:24;
uint32_t memflag:8; /* enum atom_asic_init_mem_flag */
};
struct asic_init_parameters_v2_1
{
struct asic_init_engine_parameters engineparam;
struct asic_init_mem_parameters memparam;
};
struct asic_init_ps_allocation_v2_1
{
struct asic_init_parameters_v2_1 param;
uint32_t reserved[16];
};
enum atom_asic_init_engine_flag
{
b3NORMAL_ENGINE_INIT = 0,
b3SRIOV_SKIP_ASIC_INIT = 0x02,
b3SRIOV_LOAD_UCODE = 0x40,
};
enum atom_asic_init_mem_flag
{
b3NORMAL_MEM_INIT = 0,
b3DRAM_SELF_REFRESH_EXIT =0x20,
};
/*
***************************************************************************
Structures used by setengineclock
***************************************************************************
*/
struct set_engine_clock_parameters_v2_1
{
uint32_t sclkfreqin10khz:24;
uint32_t sclkflag:8; /* enum atom_set_engine_mem_clock_flag, */
uint32_t reserved[10];
};
struct set_engine_clock_ps_allocation_v2_1
{
struct set_engine_clock_parameters_v2_1 clockinfo;
uint32_t reserved[10];
};
enum atom_set_engine_mem_clock_flag
{
b3NORMAL_CHANGE_CLOCK = 0,
b3FIRST_TIME_CHANGE_CLOCK = 0x08,
b3STORE_DPM_TRAINGING = 0x40, //Applicable to memory clock change,when set, it store specific DPM mode training result
};
/*
***************************************************************************
Structures used by getengineclock
***************************************************************************
*/
struct get_engine_clock_parameter
{
uint32_t sclk_10khz; // current engine speed in 10KHz unit
uint32_t reserved;
};
/*
***************************************************************************
Structures used by setmemoryclock
***************************************************************************
*/
struct set_memory_clock_parameters_v2_1
{
uint32_t mclkfreqin10khz:24;
uint32_t mclkflag:8; /* enum atom_set_engine_mem_clock_flag, */
uint32_t reserved[10];
};
struct set_memory_clock_ps_allocation_v2_1
{
struct set_memory_clock_parameters_v2_1 clockinfo;
uint32_t reserved[10];
};
/*
***************************************************************************
Structures used by getmemoryclock
***************************************************************************
*/
struct get_memory_clock_parameter
{
uint32_t mclk_10khz; // current engine speed in 10KHz unit
uint32_t reserved;
};
/*
***************************************************************************
Structures used by setvoltage
***************************************************************************
*/
struct set_voltage_parameters_v1_4
{
uint8_t voltagetype; /* enum atom_voltage_type */
uint8_t command; /* Indicate action: Set voltage level, enum atom_set_voltage_command */
uint16_t vlevel_mv; /* real voltage level in unit of mv or Voltage Phase (0, 1, 2, .. ) */
};
//set_voltage_parameters_v2_1.voltagemode
enum atom_set_voltage_command{
ATOM_SET_VOLTAGE = 0,
ATOM_INIT_VOLTAGE_REGULATOR = 3,
ATOM_SET_VOLTAGE_PHASE = 4,
ATOM_GET_LEAKAGE_ID = 8,
};
struct set_voltage_ps_allocation_v1_4
{
struct set_voltage_parameters_v1_4 setvoltageparam;
uint32_t reserved[10];
};
/*
***************************************************************************
Structures used by computegpuclockparam
***************************************************************************
*/
//ATOM_COMPUTE_CLOCK_FREQ.ulComputeClockFlag
enum atom_gpu_clock_type
{
COMPUTE_GPUCLK_INPUT_FLAG_DEFAULT_GPUCLK =0x00,
COMPUTE_GPUCLK_INPUT_FLAG_GFXCLK =0x01,
COMPUTE_GPUCLK_INPUT_FLAG_UCLK =0x02,
};
struct compute_gpu_clock_input_parameter_v1_8
{
uint32_t gpuclock_10khz:24; //Input= target clock, output = actual clock
uint32_t gpu_clock_type:8; //Input indicate clock type: enum atom_gpu_clock_type
uint32_t reserved[5];
};
struct compute_gpu_clock_output_parameter_v1_8
{
uint32_t gpuclock_10khz:24; //Input= target clock, output = actual clock
uint32_t dfs_did:8; //return parameter: DFS divider which is used to program to register directly
uint32_t pll_fb_mult; //Feedback Multiplier, bit 8:0 int, bit 15:12 post_div, bit 31:16 frac
uint32_t pll_ss_fbsmult; // Spread FB Mult: bit 8:0 int, bit 31:16 frac
uint16_t pll_ss_slew_frac;
uint8_t pll_ss_enable;
uint8_t reserved;
uint32_t reserved1[2];
};
/*
***************************************************************************
Structures used by ReadEfuseValue
***************************************************************************
*/
struct read_efuse_input_parameters_v3_1
{
uint16_t efuse_start_index;
uint8_t reserved;
uint8_t bitslen;
};
// ReadEfuseValue input/output parameter
union read_efuse_value_parameters_v3_1
{
struct read_efuse_input_parameters_v3_1 efuse_info;
uint32_t efusevalue;
};
/*
***************************************************************************
Structures used by getsmuclockinfo
***************************************************************************
*/
struct atom_get_smu_clock_info_parameters_v3_1
{
uint8_t syspll_id; // 0= syspll0, 1=syspll1, 2=syspll2
uint8_t clk_id; // atom_smu9_syspll0_clock_id (only valid when command == GET_SMU_CLOCK_INFO_V3_1_GET_CLOCK_FREQ )
uint8_t command; // enum of atom_get_smu_clock_info_command
uint8_t dfsdid; // =0: get DFS DID from register, >0, give DFS divider, (only valid when command == GET_SMU_CLOCK_INFO_V3_1_GET_CLOCK_FREQ )
};
enum atom_get_smu_clock_info_command
{
GET_SMU_CLOCK_INFO_V3_1_GET_CLOCK_FREQ = 0,
GET_SMU_CLOCK_INFO_V3_1_GET_PLLVCO_FREQ = 1,
GET_SMU_CLOCK_INFO_V3_1_GET_PLLREFCLK_FREQ = 2,
};
enum atom_smu9_syspll0_clock_id
{
SMU9_SYSPLL0_SMNCLK_ID = 0, // SMNCLK
SMU9_SYSPLL0_SOCCLK_ID = 1, // SOCCLK (FCLK)
SMU9_SYSPLL0_MP0CLK_ID = 2, // MP0CLK
SMU9_SYSPLL0_MP1CLK_ID = 3, // MP1CLK
SMU9_SYSPLL0_LCLK_ID = 4, // LCLK
SMU9_SYSPLL0_DCLK_ID = 5, // DCLK
SMU9_SYSPLL0_VCLK_ID = 6, // VCLK
SMU9_SYSPLL0_ECLK_ID = 7, // ECLK
SMU9_SYSPLL0_DCEFCLK_ID = 8, // DCEFCLK
SMU9_SYSPLL0_DPREFCLK_ID = 10, // DPREFCLK
SMU9_SYSPLL0_DISPCLK_ID = 11, // DISPCLK
};
enum atom_smu11_syspll_id {
SMU11_SYSPLL0_ID = 0,
SMU11_SYSPLL1_0_ID = 1,
SMU11_SYSPLL1_1_ID = 2,
SMU11_SYSPLL1_2_ID = 3,
SMU11_SYSPLL2_ID = 4,
SMU11_SYSPLL3_0_ID = 5,
SMU11_SYSPLL3_1_ID = 6,
};
enum atom_smu11_syspll0_clock_id {
SMU11_SYSPLL0_ECLK_ID = 0, // ECLK
SMU11_SYSPLL0_SOCCLK_ID = 1, // SOCCLK
SMU11_SYSPLL0_MP0CLK_ID = 2, // MP0CLK
SMU11_SYSPLL0_DCLK_ID = 3, // DCLK
SMU11_SYSPLL0_VCLK_ID = 4, // VCLK
SMU11_SYSPLL0_DCEFCLK_ID = 5, // DCEFCLK
};
enum atom_smu11_syspll1_0_clock_id {
SMU11_SYSPLL1_0_UCLKA_ID = 0, // UCLK_a
};
enum atom_smu11_syspll1_1_clock_id {
SMU11_SYSPLL1_0_UCLKB_ID = 0, // UCLK_b
};
enum atom_smu11_syspll1_2_clock_id {
SMU11_SYSPLL1_0_FCLK_ID = 0, // FCLK
};
enum atom_smu11_syspll2_clock_id {
SMU11_SYSPLL2_GFXCLK_ID = 0, // GFXCLK
};
enum atom_smu11_syspll3_0_clock_id {
SMU11_SYSPLL3_0_WAFCLK_ID = 0, // WAFCLK
SMU11_SYSPLL3_0_DISPCLK_ID = 1, // DISPCLK
SMU11_SYSPLL3_0_DPREFCLK_ID = 2, // DPREFCLK
};
enum atom_smu11_syspll3_1_clock_id {
SMU11_SYSPLL3_1_MP1CLK_ID = 0, // MP1CLK
SMU11_SYSPLL3_1_SMNCLK_ID = 1, // SMNCLK
SMU11_SYSPLL3_1_LCLK_ID = 2, // LCLK
};
enum atom_smu12_syspll_id {
SMU12_SYSPLL0_ID = 0,
SMU12_SYSPLL1_ID = 1,
SMU12_SYSPLL2_ID = 2,
SMU12_SYSPLL3_0_ID = 3,
SMU12_SYSPLL3_1_ID = 4,
};
enum atom_smu12_syspll0_clock_id {
SMU12_SYSPLL0_SMNCLK_ID = 0, // SOCCLK
SMU12_SYSPLL0_SOCCLK_ID = 1, // SOCCLK
SMU12_SYSPLL0_MP0CLK_ID = 2, // MP0CLK
SMU12_SYSPLL0_MP1CLK_ID = 3, // MP1CLK
SMU12_SYSPLL0_MP2CLK_ID = 4, // MP2CLK
SMU12_SYSPLL0_VCLK_ID = 5, // VCLK
SMU12_SYSPLL0_LCLK_ID = 6, // LCLK
SMU12_SYSPLL0_DCLK_ID = 7, // DCLK
SMU12_SYSPLL0_ACLK_ID = 8, // ACLK
SMU12_SYSPLL0_ISPCLK_ID = 9, // ISPCLK
SMU12_SYSPLL0_SHUBCLK_ID = 10, // SHUBCLK
};
enum atom_smu12_syspll1_clock_id {
SMU12_SYSPLL1_DISPCLK_ID = 0, // DISPCLK
SMU12_SYSPLL1_DPPCLK_ID = 1, // DPPCLK
SMU12_SYSPLL1_DPREFCLK_ID = 2, // DPREFCLK
SMU12_SYSPLL1_DCFCLK_ID = 3, // DCFCLK
};
enum atom_smu12_syspll2_clock_id {
SMU12_SYSPLL2_Pre_GFXCLK_ID = 0, // Pre_GFXCLK
};
enum atom_smu12_syspll3_0_clock_id {
SMU12_SYSPLL3_0_FCLK_ID = 0, // FCLK
};
enum atom_smu12_syspll3_1_clock_id {
SMU12_SYSPLL3_1_UMCCLK_ID = 0, // UMCCLK
};
struct atom_get_smu_clock_info_output_parameters_v3_1
{
union {
uint32_t smu_clock_freq_hz;
uint32_t syspllvcofreq_10khz;
uint32_t sysspllrefclk_10khz;
}atom_smu_outputclkfreq;
};
/*
***************************************************************************
Structures used by dynamicmemorysettings
***************************************************************************
*/
enum atom_dynamic_memory_setting_command
{
COMPUTE_MEMORY_PLL_PARAM = 1,
COMPUTE_ENGINE_PLL_PARAM = 2,
ADJUST_MC_SETTING_PARAM = 3,
};
/* when command = COMPUTE_MEMORY_PLL_PARAM or ADJUST_MC_SETTING_PARAM */
struct dynamic_mclk_settings_parameters_v2_1
{
uint32_t mclk_10khz:24; //Input= target mclk
uint32_t command:8; //command enum of atom_dynamic_memory_setting_command
uint32_t reserved;
};
/* when command = COMPUTE_ENGINE_PLL_PARAM */
struct dynamic_sclk_settings_parameters_v2_1
{
uint32_t sclk_10khz:24; //Input= target mclk
uint32_t command:8; //command enum of atom_dynamic_memory_setting_command
uint32_t mclk_10khz;
uint32_t reserved;
};
union dynamic_memory_settings_parameters_v2_1
{
struct dynamic_mclk_settings_parameters_v2_1 mclk_setting;
struct dynamic_sclk_settings_parameters_v2_1 sclk_setting;
};
/*
***************************************************************************
Structures used by memorytraining
***************************************************************************
*/
enum atom_umc6_0_ucode_function_call_enum_id
{
UMC60_UCODE_FUNC_ID_REINIT = 0,
UMC60_UCODE_FUNC_ID_ENTER_SELFREFRESH = 1,
UMC60_UCODE_FUNC_ID_EXIT_SELFREFRESH = 2,
};
struct memory_training_parameters_v2_1
{
uint8_t ucode_func_id;
uint8_t ucode_reserved[3];
uint32_t reserved[5];
};
/*
***************************************************************************
Structures used by setpixelclock
***************************************************************************
*/
struct set_pixel_clock_parameter_v1_7
{
uint32_t pixclk_100hz; // target the pixel clock to drive the CRTC timing in unit of 100Hz.
uint8_t pll_id; // ATOM_PHY_PLL0/ATOM_PHY_PLL1/ATOM_PPLL0
uint8_t encoderobjid; // ASIC encoder id defined in objectId.h,
// indicate which graphic encoder will be used.
uint8_t encoder_mode; // Encoder mode:
uint8_t miscinfo; // enum atom_set_pixel_clock_v1_7_misc_info
uint8_t crtc_id; // enum of atom_crtc_def
uint8_t deep_color_ratio; // HDMI panel bit depth: enum atom_set_pixel_clock_v1_7_deepcolor_ratio
uint8_t reserved1[2];
uint32_t reserved2;
};
//ucMiscInfo
enum atom_set_pixel_clock_v1_7_misc_info
{
PIXEL_CLOCK_V7_MISC_FORCE_PROG_PPLL = 0x01,
PIXEL_CLOCK_V7_MISC_PROG_PHYPLL = 0x02,
PIXEL_CLOCK_V7_MISC_YUV420_MODE = 0x04,
PIXEL_CLOCK_V7_MISC_DVI_DUALLINK_EN = 0x08,
PIXEL_CLOCK_V7_MISC_REF_DIV_SRC = 0x30,
PIXEL_CLOCK_V7_MISC_REF_DIV_SRC_XTALIN = 0x00,
PIXEL_CLOCK_V7_MISC_REF_DIV_SRC_PCIE = 0x10,
PIXEL_CLOCK_V7_MISC_REF_DIV_SRC_GENLK = 0x20,
PIXEL_CLOCK_V7_MISC_REF_DIV_SRC_REFPAD = 0x30,
PIXEL_CLOCK_V7_MISC_ATOMIC_UPDATE = 0x40,
PIXEL_CLOCK_V7_MISC_FORCE_SS_DIS = 0x80,
};
/* deep_color_ratio */
enum atom_set_pixel_clock_v1_7_deepcolor_ratio
{
PIXEL_CLOCK_V7_DEEPCOLOR_RATIO_DIS = 0x00, //00 - DCCG_DEEP_COLOR_DTO_DISABLE: Disable Deep Color DTO
PIXEL_CLOCK_V7_DEEPCOLOR_RATIO_5_4 = 0x01, //01 - DCCG_DEEP_COLOR_DTO_5_4_RATIO: Set Deep Color DTO to 5:4
PIXEL_CLOCK_V7_DEEPCOLOR_RATIO_3_2 = 0x02, //02 - DCCG_DEEP_COLOR_DTO_3_2_RATIO: Set Deep Color DTO to 3:2
PIXEL_CLOCK_V7_DEEPCOLOR_RATIO_2_1 = 0x03, //03 - DCCG_DEEP_COLOR_DTO_2_1_RATIO: Set Deep Color DTO to 2:1
};
/*
***************************************************************************
Structures used by setdceclock
***************************************************************************
*/
// SetDCEClock input parameter for DCE11.2( ELM and BF ) and above
struct set_dce_clock_parameters_v2_1
{
uint32_t dceclk_10khz; // target DCE frequency in unit of 10KHZ, return real DISPCLK/DPREFCLK frequency.
uint8_t dceclktype; // =0: DISPCLK =1: DPREFCLK =2: PIXCLK
uint8_t dceclksrc; // ATOM_PLL0 or ATOM_GCK_DFS or ATOM_FCH_CLK or ATOM_COMBOPHY_PLLx
uint8_t dceclkflag; // Bit [1:0] = PPLL ref clock source ( when ucDCEClkSrc= ATOM_PPLL0 )
uint8_t crtc_id; // ucDisp Pipe Id, ATOM_CRTC0/1/2/..., use only when ucDCEClkType = PIXCLK
};
//ucDCEClkType
enum atom_set_dce_clock_clock_type
{
DCE_CLOCK_TYPE_DISPCLK = 0,
DCE_CLOCK_TYPE_DPREFCLK = 1,
DCE_CLOCK_TYPE_PIXELCLK = 2, // used by VBIOS internally, called by SetPixelClock
};
//ucDCEClkFlag when ucDCEClkType == DPREFCLK
enum atom_set_dce_clock_dprefclk_flag
{
DCE_CLOCK_FLAG_PLL_REFCLK_SRC_MASK = 0x03,
DCE_CLOCK_FLAG_PLL_REFCLK_SRC_GENERICA = 0x00,
DCE_CLOCK_FLAG_PLL_REFCLK_SRC_GENLK = 0x01,
DCE_CLOCK_FLAG_PLL_REFCLK_SRC_PCIE = 0x02,
DCE_CLOCK_FLAG_PLL_REFCLK_SRC_XTALIN = 0x03,
};
//ucDCEClkFlag when ucDCEClkType == PIXCLK
enum atom_set_dce_clock_pixclk_flag
{
DCE_CLOCK_FLAG_PCLK_DEEPCOLOR_RATIO_MASK = 0x03,
DCE_CLOCK_FLAG_PCLK_DEEPCOLOR_RATIO_DIS = 0x00, //00 - DCCG_DEEP_COLOR_DTO_DISABLE: Disable Deep Color DTO
DCE_CLOCK_FLAG_PCLK_DEEPCOLOR_RATIO_5_4 = 0x01, //01 - DCCG_DEEP_COLOR_DTO_5_4_RATIO: Set Deep Color DTO to 5:4
DCE_CLOCK_FLAG_PCLK_DEEPCOLOR_RATIO_3_2 = 0x02, //02 - DCCG_DEEP_COLOR_DTO_3_2_RATIO: Set Deep Color DTO to 3:2
DCE_CLOCK_FLAG_PCLK_DEEPCOLOR_RATIO_2_1 = 0x03, //03 - DCCG_DEEP_COLOR_DTO_2_1_RATIO: Set Deep Color DTO to 2:1
DCE_CLOCK_FLAG_PIXCLK_YUV420_MODE = 0x04,
};
struct set_dce_clock_ps_allocation_v2_1
{
struct set_dce_clock_parameters_v2_1 param;
uint32_t ulReserved[2];
};
/****************************************************************************/
// Structures used by BlankCRTC
/****************************************************************************/
struct blank_crtc_parameters
{
uint8_t crtc_id; // enum atom_crtc_def
uint8_t blanking; // enum atom_blank_crtc_command
uint16_t reserved;
uint32_t reserved1;
};
enum atom_blank_crtc_command
{
ATOM_BLANKING = 1,
ATOM_BLANKING_OFF = 0,
};
/****************************************************************************/
// Structures used by enablecrtc
/****************************************************************************/
struct enable_crtc_parameters
{
uint8_t crtc_id; // enum atom_crtc_def
uint8_t enable; // ATOM_ENABLE or ATOM_DISABLE
uint8_t padding[2];
};
/****************************************************************************/
// Structure used by EnableDispPowerGating
/****************************************************************************/
struct enable_disp_power_gating_parameters_v2_1
{
uint8_t disp_pipe_id; // ATOM_CRTC1, ATOM_CRTC2, ...
uint8_t enable; // ATOM_ENABLE or ATOM_DISABLE
uint8_t padding[2];
};
struct enable_disp_power_gating_ps_allocation
{
struct enable_disp_power_gating_parameters_v2_1 param;
uint32_t ulReserved[4];
};
/****************************************************************************/
// Structure used in setcrtc_usingdtdtiming
/****************************************************************************/
struct set_crtc_using_dtd_timing_parameters
{
uint16_t h_size;
uint16_t h_blanking_time;
uint16_t v_size;
uint16_t v_blanking_time;
uint16_t h_syncoffset;
uint16_t h_syncwidth;
uint16_t v_syncoffset;
uint16_t v_syncwidth;
uint16_t modemiscinfo;
uint8_t h_border;
uint8_t v_border;
uint8_t crtc_id; // enum atom_crtc_def
uint8_t encoder_mode; // atom_encode_mode_def
uint8_t padding[2];
};
/****************************************************************************/
// Structures used by processi2cchanneltransaction
/****************************************************************************/
struct process_i2c_channel_transaction_parameters
{
uint8_t i2cspeed_khz;
union {
uint8_t regindex;
uint8_t status; /* enum atom_process_i2c_flag */
} regind_status;
uint16_t i2c_data_out;
uint8_t flag; /* enum atom_process_i2c_status */
uint8_t trans_bytes;
uint8_t slave_addr;
uint8_t i2c_id;
};
//ucFlag
enum atom_process_i2c_flag
{
HW_I2C_WRITE = 1,
HW_I2C_READ = 0,
I2C_2BYTE_ADDR = 0x02,
HW_I2C_SMBUS_BYTE_WR = 0x04,
};
//status
enum atom_process_i2c_status
{
HW_ASSISTED_I2C_STATUS_FAILURE =2,
HW_ASSISTED_I2C_STATUS_SUCCESS =1,
};
/****************************************************************************/
// Structures used by processauxchanneltransaction
/****************************************************************************/
struct process_aux_channel_transaction_parameters_v1_2
{
uint16_t aux_request;
uint16_t dataout;
uint8_t channelid;
union {
uint8_t reply_status;
uint8_t aux_delay;
} aux_status_delay;
uint8_t dataout_len;
uint8_t hpd_id; //=0: HPD1, =1: HPD2, =2: HPD3, =3: HPD4, =4: HPD5, =5: HPD6
};
/****************************************************************************/
// Structures used by selectcrtc_source
/****************************************************************************/
struct select_crtc_source_parameters_v2_3
{
uint8_t crtc_id; // enum atom_crtc_def
uint8_t encoder_id; // enum atom_dig_def
uint8_t encode_mode; // enum atom_encode_mode_def
uint8_t dst_bpc; // enum atom_panel_bit_per_color
};
/****************************************************************************/
// Structures used by digxencodercontrol
/****************************************************************************/
// ucAction:
enum atom_dig_encoder_control_action
{
ATOM_ENCODER_CMD_DISABLE_DIG = 0,
ATOM_ENCODER_CMD_ENABLE_DIG = 1,
ATOM_ENCODER_CMD_DP_LINK_TRAINING_START = 0x08,
ATOM_ENCODER_CMD_DP_LINK_TRAINING_PATTERN1 = 0x09,
ATOM_ENCODER_CMD_DP_LINK_TRAINING_PATTERN2 = 0x0a,
ATOM_ENCODER_CMD_DP_LINK_TRAINING_PATTERN3 = 0x13,
ATOM_ENCODER_CMD_DP_LINK_TRAINING_COMPLETE = 0x0b,
ATOM_ENCODER_CMD_DP_VIDEO_OFF = 0x0c,
ATOM_ENCODER_CMD_DP_VIDEO_ON = 0x0d,
ATOM_ENCODER_CMD_SETUP_PANEL_MODE = 0x10,
ATOM_ENCODER_CMD_DP_LINK_TRAINING_PATTERN4 = 0x14,
ATOM_ENCODER_CMD_STREAM_SETUP = 0x0F,
ATOM_ENCODER_CMD_LINK_SETUP = 0x11,
ATOM_ENCODER_CMD_ENCODER_BLANK = 0x12,
};
//define ucPanelMode
enum atom_dig_encoder_control_panelmode
{
DP_PANEL_MODE_DISABLE = 0x00,
DP_PANEL_MODE_ENABLE_eDP_MODE = 0x01,
DP_PANEL_MODE_ENABLE_LVLINK_MODE = 0x11,
};
//ucDigId
enum atom_dig_encoder_control_v5_digid
{
ATOM_ENCODER_CONFIG_V5_DIG0_ENCODER = 0x00,
ATOM_ENCODER_CONFIG_V5_DIG1_ENCODER = 0x01,
ATOM_ENCODER_CONFIG_V5_DIG2_ENCODER = 0x02,
ATOM_ENCODER_CONFIG_V5_DIG3_ENCODER = 0x03,
ATOM_ENCODER_CONFIG_V5_DIG4_ENCODER = 0x04,
ATOM_ENCODER_CONFIG_V5_DIG5_ENCODER = 0x05,
ATOM_ENCODER_CONFIG_V5_DIG6_ENCODER = 0x06,
ATOM_ENCODER_CONFIG_V5_DIG7_ENCODER = 0x07,
};
struct dig_encoder_stream_setup_parameters_v1_5
{
uint8_t digid; // 0~6 map to DIG0~DIG6 enum atom_dig_encoder_control_v5_digid
uint8_t action; // = ATOM_ENOCODER_CMD_STREAM_SETUP
uint8_t digmode; // ATOM_ENCODER_MODE_DP/ATOM_ENCODER_MODE_DVI/ATOM_ENCODER_MODE_HDMI
uint8_t lanenum; // Lane number
uint32_t pclk_10khz; // Pixel Clock in 10Khz
uint8_t bitpercolor;
uint8_t dplinkrate_270mhz;//= DP link rate/270Mhz, =6: 1.62G = 10: 2.7G, =20: 5.4Ghz, =30: 8.1Ghz etc
uint8_t reserved[2];
};
struct dig_encoder_link_setup_parameters_v1_5
{
uint8_t digid; // 0~6 map to DIG0~DIG6 enum atom_dig_encoder_control_v5_digid
uint8_t action; // = ATOM_ENOCODER_CMD_LINK_SETUP
uint8_t digmode; // ATOM_ENCODER_MODE_DP/ATOM_ENCODER_MODE_DVI/ATOM_ENCODER_MODE_HDMI
uint8_t lanenum; // Lane number
uint8_t symclk_10khz; // Symbol Clock in 10Khz
uint8_t hpd_sel;
uint8_t digfe_sel; // DIG stream( front-end ) selection, bit0 means DIG0 FE is enable,
uint8_t reserved[2];
};
struct dp_panel_mode_set_parameters_v1_5
{
uint8_t digid; // 0~6 map to DIG0~DIG6 enum atom_dig_encoder_control_v5_digid
uint8_t action; // = ATOM_ENCODER_CMD_DPLINK_SETUP
uint8_t panelmode; // enum atom_dig_encoder_control_panelmode
uint8_t reserved1;
uint32_t reserved2[2];
};
struct dig_encoder_generic_cmd_parameters_v1_5
{
uint8_t digid; // 0~6 map to DIG0~DIG6 enum atom_dig_encoder_control_v5_digid
uint8_t action; // = rest of generic encoder command which does not carry any parameters
uint8_t reserved1[2];
uint32_t reserved2[2];
};
union dig_encoder_control_parameters_v1_5
{
struct dig_encoder_generic_cmd_parameters_v1_5 cmd_param;
struct dig_encoder_stream_setup_parameters_v1_5 stream_param;
struct dig_encoder_link_setup_parameters_v1_5 link_param;
struct dp_panel_mode_set_parameters_v1_5 dppanel_param;
};
/*
***************************************************************************
Structures used by dig1transmittercontrol
***************************************************************************
*/
struct dig_transmitter_control_parameters_v1_6
{
uint8_t phyid; // 0=UNIPHYA, 1=UNIPHYB, 2=UNIPHYC, 3=UNIPHYD, 4= UNIPHYE 5=UNIPHYF
uint8_t action; // define as ATOM_TRANSMITER_ACTION_xxx
union {
uint8_t digmode; // enum atom_encode_mode_def
uint8_t dplaneset; // DP voltage swing and pre-emphasis value defined in DPCD DP_LANE_SET, "DP_LANE_SET__xDB_y_zV"
} mode_laneset;
uint8_t lanenum; // Lane number 1, 2, 4, 8
uint32_t symclk_10khz; // Symbol Clock in 10Khz
uint8_t hpdsel; // =1: HPD1, =2: HPD2, .... =6: HPD6, =0: HPD is not assigned
uint8_t digfe_sel; // DIG stream( front-end ) selection, bit0 means DIG0 FE is enable,
uint8_t connobj_id; // Connector Object Id defined in ObjectId.h
uint8_t reserved;
uint32_t reserved1;
};
struct dig_transmitter_control_ps_allocation_v1_6
{
struct dig_transmitter_control_parameters_v1_6 param;
uint32_t reserved[4];
};
//ucAction
enum atom_dig_transmitter_control_action
{
ATOM_TRANSMITTER_ACTION_DISABLE = 0,
ATOM_TRANSMITTER_ACTION_ENABLE = 1,
ATOM_TRANSMITTER_ACTION_LCD_BLOFF = 2,
ATOM_TRANSMITTER_ACTION_LCD_BLON = 3,
ATOM_TRANSMITTER_ACTION_BL_BRIGHTNESS_CONTROL = 4,
ATOM_TRANSMITTER_ACTION_LCD_SELFTEST_START = 5,
ATOM_TRANSMITTER_ACTION_LCD_SELFTEST_STOP = 6,
ATOM_TRANSMITTER_ACTION_INIT = 7,
ATOM_TRANSMITTER_ACTION_DISABLE_OUTPUT = 8,
ATOM_TRANSMITTER_ACTION_ENABLE_OUTPUT = 9,
ATOM_TRANSMITTER_ACTION_SETUP = 10,
ATOM_TRANSMITTER_ACTION_SETUP_VSEMPH = 11,
ATOM_TRANSMITTER_ACTION_POWER_ON = 12,
ATOM_TRANSMITTER_ACTION_POWER_OFF = 13,
};
// digfe_sel
enum atom_dig_transmitter_control_digfe_sel
{
ATOM_TRANMSITTER_V6__DIGA_SEL = 0x01,
ATOM_TRANMSITTER_V6__DIGB_SEL = 0x02,
ATOM_TRANMSITTER_V6__DIGC_SEL = 0x04,
ATOM_TRANMSITTER_V6__DIGD_SEL = 0x08,
ATOM_TRANMSITTER_V6__DIGE_SEL = 0x10,
ATOM_TRANMSITTER_V6__DIGF_SEL = 0x20,
ATOM_TRANMSITTER_V6__DIGG_SEL = 0x40,
};
//ucHPDSel
enum atom_dig_transmitter_control_hpd_sel
{
ATOM_TRANSMITTER_V6_NO_HPD_SEL = 0x00,
ATOM_TRANSMITTER_V6_HPD1_SEL = 0x01,
ATOM_TRANSMITTER_V6_HPD2_SEL = 0x02,
ATOM_TRANSMITTER_V6_HPD3_SEL = 0x03,
ATOM_TRANSMITTER_V6_HPD4_SEL = 0x04,
ATOM_TRANSMITTER_V6_HPD5_SEL = 0x05,
ATOM_TRANSMITTER_V6_HPD6_SEL = 0x06,
};
// ucDPLaneSet
enum atom_dig_transmitter_control_dplaneset
{
DP_LANE_SET__0DB_0_4V = 0x00,
DP_LANE_SET__0DB_0_6V = 0x01,
DP_LANE_SET__0DB_0_8V = 0x02,
DP_LANE_SET__0DB_1_2V = 0x03,
DP_LANE_SET__3_5DB_0_4V = 0x08,
DP_LANE_SET__3_5DB_0_6V = 0x09,
DP_LANE_SET__3_5DB_0_8V = 0x0a,
DP_LANE_SET__6DB_0_4V = 0x10,
DP_LANE_SET__6DB_0_6V = 0x11,
DP_LANE_SET__9_5DB_0_4V = 0x18,
};
/****************************************************************************/
// Structures used by ExternalEncoderControl V2.4
/****************************************************************************/
struct external_encoder_control_parameters_v2_4
{
uint16_t pixelclock_10khz; // pixel clock in 10Khz, valid when ucAction=SETUP/ENABLE_OUTPUT
uint8_t config; // indicate which encoder, and DP link rate when ucAction = SETUP/ENABLE_OUTPUT
uint8_t action; //
uint8_t encodermode; // encoder mode, only used when ucAction = SETUP/ENABLE_OUTPUT
uint8_t lanenum; // lane number, only used when ucAction = SETUP/ENABLE_OUTPUT
uint8_t bitpercolor; // output bit per color, only valid when ucAction = SETUP/ENABLE_OUTPUT and ucEncodeMode= DP
uint8_t hpd_id;
};
// ucAction
enum external_encoder_control_action_def
{
EXTERNAL_ENCODER_ACTION_V3_DISABLE_OUTPUT = 0x00,
EXTERNAL_ENCODER_ACTION_V3_ENABLE_OUTPUT = 0x01,
EXTERNAL_ENCODER_ACTION_V3_ENCODER_INIT = 0x07,
EXTERNAL_ENCODER_ACTION_V3_ENCODER_SETUP = 0x0f,
EXTERNAL_ENCODER_ACTION_V3_ENCODER_BLANKING_OFF = 0x10,
EXTERNAL_ENCODER_ACTION_V3_ENCODER_BLANKING = 0x11,
EXTERNAL_ENCODER_ACTION_V3_DACLOAD_DETECTION = 0x12,
EXTERNAL_ENCODER_ACTION_V3_DDC_SETUP = 0x14,
};
// ucConfig
enum external_encoder_control_v2_4_config_def
{
EXTERNAL_ENCODER_CONFIG_V3_DPLINKRATE_MASK = 0x03,
EXTERNAL_ENCODER_CONFIG_V3_DPLINKRATE_1_62GHZ = 0x00,
EXTERNAL_ENCODER_CONFIG_V3_DPLINKRATE_2_70GHZ = 0x01,
EXTERNAL_ENCODER_CONFIG_V3_DPLINKRATE_5_40GHZ = 0x02,
EXTERNAL_ENCODER_CONFIG_V3_DPLINKRATE_3_24GHZ = 0x03,
EXTERNAL_ENCODER_CONFIG_V3_ENCODER_SEL_MAKS = 0x70,
EXTERNAL_ENCODER_CONFIG_V3_ENCODER1 = 0x00,
EXTERNAL_ENCODER_CONFIG_V3_ENCODER2 = 0x10,
EXTERNAL_ENCODER_CONFIG_V3_ENCODER3 = 0x20,
};
struct external_encoder_control_ps_allocation_v2_4
{
struct external_encoder_control_parameters_v2_4 sExtEncoder;
uint32_t reserved[2];
};
/*
***************************************************************************
AMD ACPI Table
***************************************************************************
*/
struct amd_acpi_description_header{
uint32_t signature;
uint32_t tableLength; //Length
uint8_t revision;
uint8_t checksum;
uint8_t oemId[6];
uint8_t oemTableId[8]; //UINT64 OemTableId;
uint32_t oemRevision;
uint32_t creatorId;
uint32_t creatorRevision;
};
struct uefi_acpi_vfct{
struct amd_acpi_description_header sheader;
uint8_t tableUUID[16]; //0x24
uint32_t vbiosimageoffset; //0x34. Offset to the first GOP_VBIOS_CONTENT block from the beginning of the stucture.
uint32_t lib1Imageoffset; //0x38. Offset to the first GOP_LIB1_CONTENT block from the beginning of the stucture.
uint32_t reserved[4]; //0x3C
};
struct vfct_image_header{
uint32_t pcibus; //0x4C
uint32_t pcidevice; //0x50
uint32_t pcifunction; //0x54
uint16_t vendorid; //0x58
uint16_t deviceid; //0x5A
uint16_t ssvid; //0x5C
uint16_t ssid; //0x5E
uint32_t revision; //0x60
uint32_t imagelength; //0x64
};
struct gop_vbios_content {
struct vfct_image_header vbiosheader;
uint8_t vbioscontent[1];
};
struct gop_lib1_content {
struct vfct_image_header lib1header;
uint8_t lib1content[1];
};
/*
***************************************************************************
Scratch Register definitions
Each number below indicates which scratch regiser request, Active and
Connect all share the same definitions as display_device_tag defines
***************************************************************************
*/
enum scratch_register_def{
ATOM_DEVICE_CONNECT_INFO_DEF = 0,
ATOM_BL_BRI_LEVEL_INFO_DEF = 2,
ATOM_ACTIVE_INFO_DEF = 3,
ATOM_LCD_INFO_DEF = 4,
ATOM_DEVICE_REQ_INFO_DEF = 5,
ATOM_ACC_CHANGE_INFO_DEF = 6,
ATOM_PRE_OS_MODE_INFO_DEF = 7,
ATOM_PRE_OS_ASSERTION_DEF = 8, //For GOP to record a 32bit assertion code, this is enabled by default in prodution GOP drivers.
ATOM_INTERNAL_TIMER_INFO_DEF = 10,
};
enum scratch_device_connect_info_bit_def{
ATOM_DISPLAY_LCD1_CONNECT =0x0002,
ATOM_DISPLAY_DFP1_CONNECT =0x0008,
ATOM_DISPLAY_DFP2_CONNECT =0x0080,
ATOM_DISPLAY_DFP3_CONNECT =0x0200,
ATOM_DISPLAY_DFP4_CONNECT =0x0400,
ATOM_DISPLAY_DFP5_CONNECT =0x0800,
ATOM_DISPLAY_DFP6_CONNECT =0x0040,
ATOM_DISPLAY_DFPx_CONNECT =0x0ec8,
ATOM_CONNECT_INFO_DEVICE_MASK =0x0fff,
};
enum scratch_bl_bri_level_info_bit_def{
ATOM_CURRENT_BL_LEVEL_SHIFT =0x8,
#ifndef _H2INC
ATOM_CURRENT_BL_LEVEL_MASK =0x0000ff00,
ATOM_DEVICE_DPMS_STATE =0x00010000,
#endif
};
enum scratch_active_info_bits_def{
ATOM_DISPLAY_LCD1_ACTIVE =0x0002,
ATOM_DISPLAY_DFP1_ACTIVE =0x0008,
ATOM_DISPLAY_DFP2_ACTIVE =0x0080,
ATOM_DISPLAY_DFP3_ACTIVE =0x0200,
ATOM_DISPLAY_DFP4_ACTIVE =0x0400,
ATOM_DISPLAY_DFP5_ACTIVE =0x0800,
ATOM_DISPLAY_DFP6_ACTIVE =0x0040,
ATOM_ACTIVE_INFO_DEVICE_MASK =0x0fff,
};
enum scratch_device_req_info_bits_def{
ATOM_DISPLAY_LCD1_REQ =0x0002,
ATOM_DISPLAY_DFP1_REQ =0x0008,
ATOM_DISPLAY_DFP2_REQ =0x0080,
ATOM_DISPLAY_DFP3_REQ =0x0200,
ATOM_DISPLAY_DFP4_REQ =0x0400,
ATOM_DISPLAY_DFP5_REQ =0x0800,
ATOM_DISPLAY_DFP6_REQ =0x0040,
ATOM_REQ_INFO_DEVICE_MASK =0x0fff,
};
enum scratch_acc_change_info_bitshift_def{
ATOM_ACC_CHANGE_ACC_MODE_SHIFT =4,
ATOM_ACC_CHANGE_LID_STATUS_SHIFT =6,
};
enum scratch_acc_change_info_bits_def{
ATOM_ACC_CHANGE_ACC_MODE =0x00000010,
ATOM_ACC_CHANGE_LID_STATUS =0x00000040,
};
enum scratch_pre_os_mode_info_bits_def{
ATOM_PRE_OS_MODE_MASK =0x00000003,
ATOM_PRE_OS_MODE_VGA =0x00000000,
ATOM_PRE_OS_MODE_VESA =0x00000001,
ATOM_PRE_OS_MODE_GOP =0x00000002,
ATOM_PRE_OS_MODE_PIXEL_DEPTH =0x0000000C,
ATOM_PRE_OS_MODE_PIXEL_FORMAT_MASK=0x000000F0,
ATOM_PRE_OS_MODE_8BIT_PAL_EN =0x00000100,
ATOM_ASIC_INIT_COMPLETE =0x00000200,
#ifndef _H2INC
ATOM_PRE_OS_MODE_NUMBER_MASK =0xFFFF0000,
#endif
};
/*
***************************************************************************
ATOM firmware ID header file
!! Please keep it at end of the atomfirmware.h !!
***************************************************************************
*/
#include "atomfirmwareid.h"
#pragma pack()
#endif
Reference in New Issue View Git Blame Copy Permalink