/****************************************************************************\ * * 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, ATOM_DGPU_VRAM_TYPE_HBM3 = 0x80, }; 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 doesn’t 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