#ifndef _ACCELERANT_H_ #define _ACCELERANT_H_ #include #include #include #include #if defined(__cplusplus) extern "C" { #endif #define B_ACCELERANT_ENTRY_POINT "get_accelerant_hook" #define B_ACCELERANT_VERSION 1 typedef void * (*GetAccelerantHook)(uint32, void *); void *get_accelerant_hook(uint32 feature, void *data); enum { /* initialization */ B_INIT_ACCELERANT = 0, /* required */ B_ACCELERANT_CLONE_INFO_SIZE, /* required */ B_GET_ACCELERANT_CLONE_INFO, /* required */ B_CLONE_ACCELERANT, /* required */ B_UNINIT_ACCELERANT, /* required */ B_GET_ACCELERANT_DEVICE_INFO, /* required */ B_ACCELERANT_RETRACE_SEMAPHORE, /* optional */ /* mode configuration */ B_ACCELERANT_MODE_COUNT = 0x100, /* required */ B_GET_MODE_LIST, /* required */ B_PROPOSE_DISPLAY_MODE, /* optional */ B_SET_DISPLAY_MODE, /* required */ B_GET_DISPLAY_MODE, /* required */ B_GET_FRAME_BUFFER_CONFIG, /* required */ B_GET_PIXEL_CLOCK_LIMITS, /* required */ B_GET_TIMING_CONSTRAINTS, /* optional */ B_MOVE_DISPLAY, /* optional */ B_SET_INDEXED_COLORS, /* required if driver supports 8bit indexed modes */ B_DPMS_CAPABILITIES, /* required if driver supports DPMS */ B_DPMS_MODE, /* required if driver supports DPMS */ B_SET_DPMS_MODE, /* required if driver supports DPMS */ B_GET_PREFERRED_DISPLAY_MODE, /* optional */ B_GET_MONITOR_INFO, /* optional */ B_GET_EDID_INFO, /* optional */ /* cursor managment */ B_MOVE_CURSOR = 0x200, /* optional */ B_SET_CURSOR_SHAPE, /* optional */ B_SHOW_CURSOR, /* optional */ /* synchronization */ B_ACCELERANT_ENGINE_COUNT = 0x300, /* required */ B_ACQUIRE_ENGINE, /* required */ B_RELEASE_ENGINE, /* required */ B_WAIT_ENGINE_IDLE, /* required */ B_GET_SYNC_TOKEN, /* required */ B_SYNC_TO_TOKEN, /* required */ /* 2D acceleration */ B_SCREEN_TO_SCREEN_BLIT = 0x400, /* optional */ B_FILL_RECTANGLE, /* optional */ B_INVERT_RECTANGLE, /* optional */ B_FILL_SPAN, /* optional */ B_SCREEN_TO_SCREEN_TRANSPARENT_BLIT, /* optional */ B_SCREEN_TO_SCREEN_SCALED_FILTERED_BLIT, /* optional. NOTE: source and dest may NOT overlap */ /* 3D acceleration */ B_ACCELERANT_PRIVATE_START = (int)0x80000000 }; typedef struct { uint32 version; /* structure version number */ char name[32]; /* a name the user will recognize the device by */ char chipset[32]; /* the chipset used by the device */ char serial_no[32]; /* serial number for the device */ uint32 memory; /* amount of memory on the device, in bytes */ uint32 dac_speed; /* nominal DAC speed, in MHz */ } accelerant_device_info; typedef struct { uint32 pixel_clock; /* kHz */ uint16 h_display; /* in pixels (not character clocks) */ uint16 h_sync_start; uint16 h_sync_end; uint16 h_total; uint16 v_display; /* in lines */ uint16 v_sync_start; uint16 v_sync_end; uint16 v_total; uint32 flags; /* sync polarity, etc. */ } display_timing; typedef struct { display_timing timing; /* CTRC info */ uint32 space; /* pixel configuration */ uint16 virtual_width; /* in pixels */ uint16 virtual_height; /* in lines */ uint16 h_display_start; /* first displayed pixel in line */ uint16 v_display_start; /* first displayed line */ uint32 flags; /* mode flags */ } display_mode; typedef struct { void *frame_buffer; /* pointer to first byte of frame buffer in virtual memory */ void *frame_buffer_dma; /* pointer to first byte of frame buffer in physical memory for DMA */ uint32 bytes_per_row; /* number of bytes in one virtual_width line */ /* not neccesarily the same as virtual_width * byte_per_pixel */ } frame_buffer_config; typedef struct { uint16 h_res; /* minimum effective change in horizontal pixels, usually 8 */ uint16 h_sync_min; /* min/max horizontal sync pulse width in pixels, a multiple of h_res */ uint16 h_sync_max; uint16 h_blank_min; /* min/max horizontal blank pulse width in pixels, a multiple of h_res */ uint16 h_blank_max; uint16 v_res; /* minimum effective change in vertical lines, usually 1 */ uint16 v_sync_min; /* min/max vertical sync pulse width in lines, a multiple of v_res */ uint16 v_sync_max; uint16 v_blank_min; /* min/max vertical blank pulse width in linex, a multiple of v_res */ uint16 v_blank_max; } display_timing_constraints; // TODO: experimental API typedef struct { uint32 version; char vendor[128]; char name[128]; char serial_number[128]; uint32 product_id; struct { uint16 week; uint16 year; } produced; float width; float height; uint32 min_horizontal_frequency; // in kHz uint32 max_horizontal_frequency; uint32 min_vertical_frequency; // in Hz uint32 max_vertical_frequency; uint32 max_pixel_clock; // in kHz } monitor_info; enum { /* mode flags */ B_SCROLL = 1 << 0, B_8_BIT_DAC = 1 << 1, B_HARDWARE_CURSOR = 1 << 2, B_PARALLEL_ACCESS = 1 << 3, B_DPMS = 1 << 4, B_IO_FB_NA = 1 << 5 }; enum { /* power saver flags */ B_DPMS_ON = 1 << 0, B_DPMS_STAND_BY = 1 << 1, B_DPMS_SUSPEND = 1 << 2, B_DPMS_OFF = 1 << 3 }; enum { /* timing flags */ B_BLANK_PEDESTAL = 1 << 27, B_TIMING_INTERLACED = 1 << 28, B_POSITIVE_HSYNC = 1 << 29, B_POSITIVE_VSYNC = 1 << 30, B_SYNC_ON_GREEN = 1 << 31 }; typedef struct { uint16 src_left; /* guaranteed constrained to virtual width and height */ uint16 src_top; uint16 dest_left; uint16 dest_top; uint16 width; /* 0 to N, where zero means one pixel, one means two pixels, etc. */ uint16 height; /* 0 to M, where zero means one line, one means two lines, etc. */ } blit_params; typedef struct { uint16 src_left; /* guaranteed constrained to virtual width and height */ uint16 src_top; uint16 src_width; /* 0 to N, where zero means one pixel, one means two pixels, etc. */ uint16 src_height; /* 0 to M, where zero means one line, one means two lines, etc. */ uint16 dest_left; uint16 dest_top; uint16 dest_width; /* 0 to N, where zero means one pixel, one means two pixels, etc. */ uint16 dest_height; /* 0 to M, where zero means one line, one means two lines, etc. */ } scaled_blit_params; typedef struct { uint16 left; /* guaranteed constrained to virtual width and height */ uint16 top; uint16 right; uint16 bottom; } fill_rect_params; typedef struct { uint32 engine_id; /* 0 == no engine, 1,2,3 etc individual engines */ uint32 capability_mask; /* features this engine supports */ void *opaque; /* optional pointer to engine private storage */ } engine_token; enum { /* engine capabilities */ B_2D_ACCELERATION = 1 << 0, B_3D_ACCELERATION = 1 << 1 }; typedef struct { uint64 counter; /* counts issued primatives */ uint32 engine_id; /* what engine the counter is for */ char opaque[12]; /* 12 bytes of private storage */ } sync_token; /* Masks for color info */ /* B_CMAP8 - 0x000000ff */ /* B_RGB15/16 - 0x0000ffff */ /* B_RGB24 - 0x00ffffff */ /* B_RGB32 - 0xffffffff */ typedef status_t (*init_accelerant)(int fd); typedef ssize_t (*accelerant_clone_info_size)(void); typedef void (*get_accelerant_clone_info)(void *data); typedef status_t (*clone_accelerant)(void *data); typedef void (*uninit_accelerant)(void); typedef status_t (*get_accelerant_device_info)(accelerant_device_info *adi); typedef uint32 (*accelerant_mode_count)(void); typedef status_t (*get_mode_list)(display_mode *); typedef status_t (*propose_display_mode)(display_mode *target, display_mode *low, display_mode *high); typedef status_t (*set_display_mode)(display_mode *mode_to_set); typedef status_t (*get_display_mode)(display_mode *current_mode); typedef status_t (*get_frame_buffer_config)(frame_buffer_config *a_frame_buffer); typedef status_t (*get_pixel_clock_limits)(display_mode *dm, uint32 *low, uint32 *high); typedef status_t (*move_display_area)(uint16 h_display_start, uint16 v_display_start); typedef status_t (*get_timing_constraints)(display_timing_constraints *dtc); typedef void (*set_indexed_colors)(uint count, uint8 first, uint8 *color_data, uint32 flags); typedef uint32 (*dpms_capabilities)(void); typedef uint32 (*dpms_mode)(void); typedef status_t (*set_dpms_mode)(uint32 dpms_flags); typedef status_t (*get_preferred_display_mode)(display_mode *preferredMode); typedef status_t (*get_monitor_info)(monitor_info *info); typedef status_t (*get_edid_info)(void *info, uint32 size, uint32 *_version); typedef sem_id (*accelerant_retrace_semaphore)(void); typedef status_t (*set_cursor_shape)(uint16 width, uint16 height, uint16 hot_x, uint16 hot_y, uint8 *andMask, uint8 *xorMask); typedef void (*move_cursor)(uint16 x, uint16 y); typedef void (*show_cursor)(bool is_visible); typedef uint32 (*accelerant_engine_count)(void); typedef status_t (*acquire_engine)(uint32 capabilities, uint32 max_wait, sync_token *st, engine_token **et); typedef status_t (*release_engine)(engine_token *et, sync_token *st); typedef void (*wait_engine_idle)(void); typedef status_t (*get_sync_token)(engine_token *et, sync_token *st); typedef status_t (*sync_to_token)(sync_token *st); typedef void (*screen_to_screen_blit)(engine_token *et, blit_params *list, uint32 count); typedef void (*fill_rectangle)(engine_token *et, uint32 color, fill_rect_params *list, uint32 count); typedef void (*invert_rectangle)(engine_token *et, fill_rect_params *list, uint32 count); typedef void (*screen_to_screen_transparent_blit)(engine_token *et, uint32 transparent_color, blit_params *list, uint32 count); typedef void (*screen_to_screen_scaled_filtered_blit)(engine_token *et, scaled_blit_params *list, uint32 count); typedef void (*fill_span)(engine_token *et, uint32 color, uint16 *list, uint32 count); /* The uint16 *list points to a list of tripples: list[N+0] Y co-ordinate of span list[N+1] Left x co-ordinate of span list[N+2] Right x co-ordinate of span where N is in the range 0 to count-1. */ #if defined(__cplusplus) } #endif #endif