/* * Copyright 2006-2011, Haiku, Inc. All Rights Reserved. * Distributed under the terms of the MIT License. * * Authors: * Axel Dörfler, axeld@pinc-software.de * Alexander von Gluck IV, kallisti5@unixzen.com */ #ifndef RADEON_HD_H #define RADEON_HD_H #include "lock.h" #include "radeon_reg.h" //#include "r500_reg.h" // Not used atm #include "avivo_reg.h" #include "r600_reg.h" #include "r700_reg.h" #include "evergreen_reg.h" #include "si_reg.h" #include "ni_reg.h" #include #include #include #include #define VENDOR_ID_ATI 0x1002 // Card chipset flags #define CHIP_STD (1 << 0) // Standard chipset #define CHIP_IGP (1 << 1) // IGP chipset #define CHIP_MOBILE (1 << 2) // Mobile chipset #define CHIP_DISCREET (1 << 3) // Discreet chipset #define CHIP_APU (1 << 4) // APU chipset #define DEVICE_NAME "radeon_hd" #define RADEON_ACCELERANT_NAME "radeon_hd.accelerant" // Used to collect EDID from boot loader #define EDID_BOOT_INFO "vesa_edid/v1" #define MODES_BOOT_INFO "vesa_modes/v1" #define RHD_POWER_ON 0 #define RHD_POWER_RESET 1 /* off temporarily */ #define RHD_POWER_SHUTDOWN 2 /* long term shutdown */ #define RHD_POWER_UNKNOWN 3 /* initial state */ // Radeon Chipsets enum radeon_chipset { RADEON_R420 = 0, //r400, Radeon X700-X850 RADEON_R423, RADEON_RV410, RADEON_RS400, RADEON_RS480, RADEON_RS600, RADEON_RS690, RADEON_RS740, RADEON_RV515, RADEON_R520, //r500, Radeon X1300-X1950 RADEON_RV530, RADEON_RV560, RADEON_RV570, RADEON_R580, RADEON_R600, //r600, Radeon HD 2000, 3000 RADEON_RV610, RADEON_RV630, RADEON_RV670, RADEON_RV620, RADEON_RV635, RADEON_RS780, RADEON_RS880, RADEON_RV770, //r700, Radeon HD 4000 RADEON_RV730, RADEON_RV710, RADEON_RV740, RADEON_CEDAR, //Evergreen, Radeon HD 5000 RADEON_REDWOOD, RADEON_JUNIPER, RADEON_CYPRESS, RADEON_HEMLOCK, RADEON_PALM, //Fusion APU (NI), Radeon HD 6000 RADEON_SUMO, RADEON_SUMO2, RADEON_CAICOS, //Nothern Islands, Radeon HD 6000 RADEON_TURKS, RADEON_BARTS, RADEON_CAYMAN, RADEON_ANTILLES, RADEON_LOMBOK, //Southern Islands, Radeon HD 7000 RADEON_CAPEVERDE, RADEON_PITCAIRN, RADEON_TAHITI, RADEON_NEWZEALAND }; struct ring_buffer { struct lock lock; uint32 register_base; uint32 offset; uint32 size; uint32 position; uint32 space_left; uint8* base; }; struct overlay_registers; struct radeon_shared_info { uint32 deviceIndex; // accelerant index uint32 pciID; // device pciid area_id mode_list_area; // area containing display mode list uint32 mode_count; bool has_rom; // was rom mapped? area_id rom_area; // area of mapped rom uint32 rom_phys; // rom base location uint32 rom_size; // rom size uint8* rom; // cloned, memory mapped PCI ROM display_mode current_mode; uint32 bytes_per_row; uint32 bits_per_pixel; uint32 dpms_mode; area_id registers_area; // area of memory mapped registers uint8* status_page; addr_t physical_status_page; uint32 graphics_memory_size; uint8* frame_buffer; // virtual memory mapped FB area_id frame_buffer_area; // area of memory mapped FB addr_t frame_buffer_phys; // card PCI BAR address of FB uint32 frame_buffer_size; // FB size mapped bool has_edid; edid1_info edid_info; struct lock accelerant_lock; struct lock engine_lock; ring_buffer primary_ring_buffer; int32 overlay_channel_used; bool overlay_active; uint32 overlay_token; addr_t physical_overlay_registers; uint32 overlay_offset; bool hardware_cursor_enabled; sem_id vblank_sem; uint8* cursor_memory; addr_t physical_cursor_memory; uint32 cursor_buffer_offset; uint32 cursor_format; bool cursor_visible; uint16 cursor_hot_x; uint16 cursor_hot_y; char deviceName[32]; uint16 chipsetID; char chipsetName[16]; uint32 chipsetFlags; uint8 dceMajor; uint8 dceMinor; uint16 color_data[3 * 256]; // colour lookup table }; //----------------- ioctl() interface ---------------- // magic code for ioctls #define RADEON_PRIVATE_DATA_MAGIC 'rdhd' // list ioctls enum { RADEON_GET_PRIVATE_DATA = B_DEVICE_OP_CODES_END + 1, RADEON_GET_DEVICE_NAME, RADEON_ALLOCATE_GRAPHICS_MEMORY, RADEON_FREE_GRAPHICS_MEMORY }; // retrieve the area_id of the kernel/accelerant shared info struct radeon_get_private_data { uint32 magic; // magic number area_id shared_info_area; }; // allocate graphics memory struct radeon_allocate_graphics_memory { uint32 magic; uint32 size; uint32 alignment; uint32 flags; uint32 buffer_base; }; // free graphics memory struct radeon_free_graphics_memory { uint32 magic; uint32 buffer_base; }; // registers #define R6XX_CONFIG_APER_SIZE 0x5430 // r600> #define OLD_CONFIG_APER_SIZE 0x0108 // // PCI bridge memory management // overlay #define RADEON_OVERLAY_UPDATE 0x30000 #define RADEON_OVERLAY_TEST 0x30004 #define RADEON_OVERLAY_STATUS 0x30008 #define RADEON_OVERLAY_EXTENDED_STATUS 0x3000c #define RADEON_OVERLAY_GAMMA_5 0x30010 #define RADEON_OVERLAY_GAMMA_4 0x30014 #define RADEON_OVERLAY_GAMMA_3 0x30018 #define RADEON_OVERLAY_GAMMA_2 0x3001c #define RADEON_OVERLAY_GAMMA_1 0x30020 #define RADEON_OVERLAY_GAMMA_0 0x30024 struct overlay_scale { uint32 _reserved0 : 3; uint32 horizontal_scale_fraction : 12; uint32 _reserved1 : 1; uint32 horizontal_downscale_factor : 3; uint32 _reserved2 : 1; uint32 vertical_scale_fraction : 12; }; #define OVERLAY_FORMAT_RGB15 0x2 #define OVERLAY_FORMAT_RGB16 0x3 #define OVERLAY_FORMAT_RGB32 0x1 #define OVERLAY_FORMAT_YCbCr422 0x8 #define OVERLAY_FORMAT_YCbCr411 0x9 #define OVERLAY_FORMAT_YCbCr420 0xc #define OVERLAY_MIRROR_NORMAL 0x0 #define OVERLAY_MIRROR_HORIZONTAL 0x1 #define OVERLAY_MIRROR_VERTICAL 0x2 // The real overlay registers are written to using an update buffer struct overlay_registers { uint32 buffer_rgb0; uint32 buffer_rgb1; uint32 buffer_u0; uint32 buffer_v0; uint32 buffer_u1; uint32 buffer_v1; // (0x18) OSTRIDE - overlay stride uint16 stride_rgb; uint16 stride_uv; // (0x1c) YRGB_VPH - Y/RGB vertical phase uint16 vertical_phase0_rgb; uint16 vertical_phase1_rgb; // (0x20) UV_VPH - UV vertical phase uint16 vertical_phase0_uv; uint16 vertical_phase1_uv; // (0x24) HORZ_PH - horizontal phase uint16 horizontal_phase_rgb; uint16 horizontal_phase_uv; // (0x28) INIT_PHS - initial phase shift uint32 initial_vertical_phase0_shift_rgb0 : 4; uint32 initial_vertical_phase1_shift_rgb0 : 4; uint32 initial_horizontal_phase_shift_rgb0 : 4; uint32 initial_vertical_phase0_shift_uv : 4; uint32 initial_vertical_phase1_shift_uv : 4; uint32 initial_horizontal_phase_shift_uv : 4; uint32 _reserved0 : 8; // (0x2c) DWINPOS - destination window position uint16 window_left; uint16 window_top; // (0x30) DWINSZ - destination window size uint16 window_width; uint16 window_height; // (0x34) SWIDTH - source width uint16 source_width_rgb; uint16 source_width_uv; // (0x38) SWITDHSW - source width in 8 byte steps uint16 source_bytes_per_row_rgb; uint16 source_bytes_per_row_uv; uint16 source_height_rgb; uint16 source_height_uv; overlay_scale scale_rgb; overlay_scale scale_uv; // (0x48) OCLRC0 - overlay color correction 0 uint32 brightness_correction : 8; // signed, -128 to 127 uint32 _reserved1 : 10; uint32 contrast_correction : 9; // fixed point: 3.6 bits uint32 _reserved2 : 5; // (0x4c) OCLRC1 - overlay color correction 1 uint32 saturation_cos_correction : 10; // fixed point: 3.7 bits uint32 _reserved3 : 6; uint32 saturation_sin_correction : 11; // signed fixed point: 3.7 bits uint32 _reserved4 : 5; // (0x50) DCLRKV - destination color key value uint32 color_key_blue : 8; uint32 color_key_green : 8; uint32 color_key_red : 8; uint32 _reserved5 : 8; // (0x54) DCLRKM - destination color key mask uint32 color_key_mask_blue : 8; uint32 color_key_mask_green : 8; uint32 color_key_mask_red : 8; uint32 _reserved6 : 7; uint32 color_key_enabled : 1; // (0x58) SCHRKVH - source chroma key high value uint32 source_chroma_key_high_red : 8; uint32 source_chroma_key_high_blue : 8; uint32 source_chroma_key_high_green : 8; uint32 _reserved7 : 8; // (0x5c) SCHRKVL - source chroma key low value uint32 source_chroma_key_low_red : 8; uint32 source_chroma_key_low_blue : 8; uint32 source_chroma_key_low_green : 8; uint32 _reserved8 : 8; // (0x60) SCHRKEN - source chroma key enable uint32 _reserved9 : 24; uint32 source_chroma_key_red_enabled : 1; uint32 source_chroma_key_blue_enabled : 1; uint32 source_chroma_key_green_enabled : 1; uint32 _reserved10 : 5; // (0x64) OCONFIG - overlay configuration uint32 _reserved11 : 3; uint32 color_control_output_mode : 1; uint32 yuv_to_rgb_bypass : 1; uint32 _reserved12 : 11; uint32 gamma2_enabled : 1; uint32 _reserved13 : 1; uint32 select_pipe : 1; uint32 slot_time : 8; uint32 _reserved14 : 5; // (0x68) OCOMD - overlay command uint32 overlay_enabled : 1; uint32 active_field : 1; uint32 active_buffer : 2; uint32 test_mode : 1; uint32 buffer_field_mode : 1; uint32 _reserved15 : 1; uint32 tv_flip_field_enabled : 1; uint32 _reserved16 : 1; uint32 tv_flip_field_parity : 1; uint32 source_format : 4; uint32 ycbcr422_order : 2; uint32 _reserved18 : 1; uint32 mirroring_mode : 2; uint32 _reserved19 : 13; uint32 _reserved20; uint32 start_0y; uint32 start_1y; uint32 start_0u; uint32 start_0v; uint32 start_1u; uint32 start_1v; uint32 _reserved21[6]; #if 0 // (0x70) AWINPOS - alpha blend window position uint32 awinpos; // (0x74) AWINSZ - alpha blend window size uint32 awinsz; uint32 _reserved21[10]; #endif // (0xa0) FASTHSCALE - fast horizontal downscale (strangely enough, // the next two registers switch the usual Y/RGB vs. UV order) uint16 horizontal_scale_uv; uint16 horizontal_scale_rgb; // (0xa4) UVSCALEV - vertical downscale uint16 vertical_scale_uv; uint16 vertical_scale_rgb; uint32 _reserved22[86]; // (0x200) polyphase filter coefficients uint16 vertical_coefficients_rgb[128]; uint16 horizontal_coefficients_rgb[128]; uint32 _reserved23[64]; // (0x500) uint16 vertical_coefficients_uv[128]; uint16 horizontal_coefficients_uv[128]; }; struct hardware_status { uint32 interrupt_status_register; uint32 _reserved0[3]; void* primary_ring_head_storage; uint32 _reserved1[3]; void* secondary_ring_0_head_storage; void* secondary_ring_1_head_storage; uint32 _reserved2[2]; void* binning_head_storage; uint32 _reserved3[3]; uint32 store[1008]; }; #endif /* RADEON_HD_H */