/* Copyright (C) KolibriOS team 2004-2021. All rights reserved. */ /* Distributed under terms of the GNU General Public License */ /* This file contains basic wrappers over KolibriOS system calls. */ /* See sysfuncs.txt file for details. */ /* * This file was created with you in mind. Lest you reinvent the wheel. * If for some reason there is not enough wrapper add! I ask you to stick to the same style: snake_case. * Structure names must start with "ksys_" and end with "_t". * All wrappers must start with the "_ksys_" prefix. * I consider it mandatory to place the wrappers in the correct order in the official documentation. * Enjoy writing your code :) * Warning! The end of the file is the old definitions of function/structure names. * They are for compatibility... Better not to use them. */ #ifndef _KSYS_H_ #define _KSYS_H_ #include #define asm_inline __asm__ __volatile__ /*============== General structures ==============*/ #pragma pack(push,1) typedef struct { uint8_t blue; uint8_t green; uint8_t red; }rgb_t; typedef union { uint32_t val; struct{ uint8_t hour; uint8_t min; uint8_t sec; uint8_t _zero; }; }ksys_time_t; typedef union { uint32_t val; struct{ uint8_t year; uint8_t month; uint8_t day; uint8_t _zero; }; }ksys_date_t; typedef union{ uint32_t val; struct{ uint16_t x; uint16_t y; }; }ksys_pos_t; typedef union ksys_oskey_t{ uint32_t val; struct{ uint8_t state; uint8_t code; uint8_t ctrl_key; }; }ksys_oskey_t; typedef struct{ void *data; size_t size; }ksys_ufile_t; typedef struct{ uint32_t p00; union{ uint64_t p04; struct { uint32_t p04dw; uint32_t p08dw; }; }; uint32_t p12; union { uint32_t p16; const char *new_name; void *bdfe; void *buf16; const void *cbuf16; }; char p20; const char *p21; }ksys70_t; typedef struct { uint32_t attributes; uint32_t name_cp; ksys_time_t creation_time; ksys_date_t creation_date; ksys_time_t last_access_time; ksys_date_t last_access_date; ksys_time_t last_modification_time; ksys_date_t last_modification_date; unsigned long long size; char name[0]; }ksys_bdfe_t; typedef struct { int cpu_usage; //+0 int window_pos_info; //+4 short int reserved1; //+8 char name[12]; //+10 int memstart; //+22 int memused; //+26 int pid; //+30 int winx_start; //+34 int winy_start; //+38 int winx_size; //+42 int winy_size; //+46 short int slot_info; //+50 short int reserved2; //+52 int clientx; //+54 int clienty; //+58 int clientwidth; //+62 int clientheight; //+66 unsigned char window_state;//+70 char reserved3[1024-71]; //+71 }ksys_thread_t; typedef unsigned int ksys_color_t; typedef struct{ ksys_color_t frame_area; ksys_color_t grab_bar; ksys_color_t grab_bar_button; ksys_color_t grab_button_text; ksys_color_t grab_text; ksys_color_t work_area; ksys_color_t work_button; ksys_color_t work_button_text; ksys_color_t work_text; ksys_color_t work_graph; }ksys_colors_table_t; typedef struct{ unsigned pid; // PID of sending thread unsigned datalen; // data bytes char *data; // data begin }ksys_ipc_msg; typedef struct{ unsigned lock; // nonzero is locked unsigned used; // used bytes in buffer ksys_ipc_msg *data; // data begin }ksys_ipc_buffer; typedef struct { char* func_name; void* func_ptr; }ksys_dll_t; typedef unsigned ksys_drv_hand_t; typedef struct{ ksys_drv_hand_t handler; unsigned func_num; void* in_data_ptr; unsigned in_data_size; void* out_data_ptr; unsigned out_data_size; }ksys_ioctl_t; typedef struct{ char key[64]; char path[64]; }ksys_dir_key_t; #pragma pack(pop) typedef rgb_t ksys_bitmap_t; enum KSYS_FS_ERRORS { KSYS_FS_ERR_SUCCESS = 0, // Success KSYS_FS_ERR_1 = 1, // Base and/or partition of a hard disk is not defined (fn21.7 & fn21.8) KSYS_FS_ERR_2 = 2, // Function is not supported for the given file system KSYS_FS_ERR_3 = 3, // Unknown file system KSYS_FS_ERR_4 = 4, // Reserved, is never returned in the current implementation KSYS_FS_ERR_5 = 5, // File not found KSYS_FS_ERR_EOF = 6, // End of file, EOF KSYS_FS_ERR_7 = 7, // Pointer lies outside of application memory KSYS_FS_ERR_8 = 8, // Disk is full KSYS_FS_ERR_9 = 9, // FAT table is destroyed KSYS_FS_ERR_10 = 10, // Access denied KSYS_FS_ERR_11 = 11 // Device error }; enum KSYS_EVENTS { KSYS_EVENT_NONE = 0, /* Event queue is empty */ KSYS_EVENT_REDRAW = 1, /* Window and window elements should be redrawn */ KSYS_EVENT_KEY = 2, /* A key on the keyboard was pressed */ KSYS_EVENT_BUTTON = 3, /* A button was clicked with the mouse */ KSYS_EVENT_DESKTOP = 5, /* Desktop redraw finished */ KSYS_EVENT_MOUSE = 6, /* Mouse activity (movement, button press) was detected */ KSYS_EVENT_IPC = 7, /* Interprocess communication notify */ KSYS_EVENT_NETWORK = 8, /* Network event */ KSYS_EVENT_DEBUG = 9, /* Debug subsystem event */ KSYS_EVENT_IRQBEGIN = 16 /* 16..31 IRQ0..IRQ15 interrupt =IRQBEGIN+IRQn */ }; enum KSYS_FILE_ENCODING{ KSYS_FILE_CP866 =1, KSYS_FILE_UTF16LE = 2, KSYS_FILE_UTF8 = 3 }; static inline int _ksys_strcmp(const char * s1, const char * s2 ) { while ((*s1) && (*s1 == *s2)){ ++s1; ++s2; } return(*(unsigned char*)s1 - *(unsigned char *)s2); } /* ####################################################################### */ /* ############### ะก wrappers for system calls Kolibri OS ################ */ /* ####################################################################### */ /*=============== Function -1 - terminate thread/process ===============*/ static inline void _ksys_exit(){ asm_inline("int $0x40"::"a"(-1)); } /*============== Function 0 - define and draw the window. ==============*/ static inline void _ksys_create_window(uint32_t x, uint32_t y, uint32_t w, uint32_t h, const char *name, ksys_color_t workcolor, uint32_t style) { asm_inline( "int $0x40" ::"a"(0), "b"((x << 16) | ((w-1) & 0xFFFF)), "c"((y << 16) | ((h-1) & 0xFFFF)), "d"((style << 24) | (workcolor & 0xFFFFFF)), "D"(name), "S"(0) :"memory" ); }; /*================ Function 1 - put pixel in the window. ===============*/ static inline void _ksys_draw_pixel(uint32_t x, uint32_t y, ksys_color_t color){ asm_inline( "int $0x40" ::"a"(1), "b"(x), "c"(y), "d"(color) ); } /*============ Function 2 - get the code of the pressed key. ===========*/ static inline ksys_oskey_t _ksys_get_key(void){ ksys_oskey_t val; asm_inline( "int $0x40" :"=a"(val) :"a"(2) ); return val; } /*==================== Function 3 - get system time. ===================*/ static inline ksys_time_t _ksys_get_time(){ ksys_time_t c_time; asm_inline( "int $0x40" :"=a"(c_time) :"a"(3) :"memory" ); return c_time; } /*=================== Function 4 - draw text string. ===================*/ static inline void _ksys_draw_text(const char *text, uint32_t x, uint32_t y, uint32_t len, ksys_color_t color) { asm_inline( "int $0x40" ::"a"(4),"d"(text), "b"((x << 16) | y), "S"(len),"c"(color) :"memory" ); } /*========================= Function 5 - delay. ========================*/ static inline void _ksys_delay(uint32_t time){ asm_inline( "int $0x40" ::"a"(5), "b"(time) :"memory" ); } /*=============== Function 7 - draw image in the window. ===============*/ static inline void _ksys_draw_bitmap(void *bitmap, int x, int y, int w, int h) { asm_inline( "int $0x40" ::"a"(7), "b"(bitmap), "c"((w << 16) | h), "d"((x << 16) | y) :"memory" ); } /*=============== Function 8 - define/delete the button. ===============*/ static inline void _ksys_define_button(uint32_t x, uint32_t y, uint32_t w, uint32_t h, uint32_t id, ksys_color_t color) { asm_inline( "int $0x40" ::"a"(8), "b"((x<<16)+w), "c"((y<<16)+h), "d"(id), "S"(color) ); }; static inline void _ksys_delete_button(uint32_t id){ asm_inline( "int $0x40" ::"a"(8),"d"(id & 0x00FFFFFF | 0x80000000) ); } /*============ Function 9 - information on execution thread. ===========*/ static inline int _ksys_thread_info(ksys_thread_t* table, int slot){ int val; asm_inline( "int $0x40" :"=a"(val) :"a"(9), "b"(table), "c"(slot) :"memory" ); return val; } /*==================== Function 10 - wait for event. ===================*/ static inline uint32_t _ksys_wait_event(void){ uint32_t val; asm_inline( "int $0x40" :"=a"(val) :"a"(10) ); return val; } /*=============== Function 11 - check for event, no wait. ==============*/ static inline uint32_t _ksys_check_event(void){ uint32_t val; asm_inline( "int $0x40" :"=a"(val) :"a"(11) ); return val; } /*=============== Function 12 - begin/end window redraw. ===============*/ static inline void _ksys_start_draw(){ asm_inline("int $0x40"::"a"(12),"b"(1)); } static inline void _ksys_end_draw(){ asm_inline("int $0x40" ::"a"(12),"b"(2)); } /*============ Function 13 - draw a rectangle in the window. ===========*/ static inline void _ksys_draw_bar(uint32_t x, uint32_t y, uint32_t w, uint32_t h, ksys_color_t color){ asm_inline( "int $0x40" ::"a"(13), "d"(color), "b"((x << 16) | w), "c"((y << 16) | h) ); } /*=================== Function 14 - get screen size. ===================*/ static inline ksys_pos_t _ksys_screen_size(){ ksys_pos_t size; ksys_pos_t size_tmp; asm_inline( "int $0x40" :"=a"(size_tmp) :"a"(14) ); size.x = size_tmp.y; size.y = size_tmp.x; return size; } /*== Function 15, subfunction 1 - set a size of the background image. ==*/ static inline void _ksys_bg_set_size(uint32_t w, uint32_t h){ asm_inline( "int $0x40" ::"a"(15), "b"(1), "c"(w), "d"(h) ); } /*=== Function 15, subfunction 2 - put pixel on the background image. ==*/ static inline void _ksys_bg_put_pixel(uint32_t x, uint32_t y, uint32_t w, ksys_color_t color){ asm_inline( "int $0x40" ::"a"(15), "b"(2), "c"((x+y*w)*3), "d"(color) ); } /*=========== Function 15, subfunction 3 - redraw background. ==========*/ static inline void _ksys_bg_redraw(void){ asm_inline( "int $0x40" ::"a"(15), "b"(3) ); } /*== Function 15, subfunction 4 - set drawing mode for the background. =*/ enum KSYS_BG_MODES{ KSYS_BG_MODE_PAVE=1, KSYS_BG_MODE_STRETCH=2 }; static inline void _ksys_bg_set_mode(uint32_t mode){ asm_inline( "int $0x40" ::"a"(15), "b"(4), "c"(mode) ); } /*===================== Function 15, subfunction 5 =====================*/ /*============ Put block of pixels on the background image. ============*/ static inline void _ksys_bg_put_bitmap(ksys_bitmap_t* bitmap, size_t bitmap_size, uint32_t x, uint32_t y, uint32_t w){ asm_inline( "int $0x40" ::"a"(15), "b"(5), "c"(bitmap), "d"((x+y*w)*3), "S"(bitmap_size) ); } /*===================== Function 15, subfunction 6 =====================*/ /*======= Map background data to the address space of process. ==========*/ static inline ksys_bitmap_t* _ksys_bg_get_map() { ksys_bitmap_t *bitmap; asm_inline( "int $0x40" :"=a"(bitmap) :"a"(15), "b"(6) ); return bitmap; } /*===== Function 15, subfunction 7 - close mapped background data. =====*/ static inline int _ksys_bg_close_map(ksys_bitmap_t* bitmap) { int status; // 1 - OK, 0 - ERROR asm_inline( "int $0x40" :"=a"(status) :"a"(15), "b"(7), "c"(bitmap) ); return status; } /*===================== Function 15, subfunction 9 =====================*/ /*============= Redraws a rectangular part of the background ===========*/ static inline void _ksys_bg_redraw_bar(ksys_pos_t angle1, ksys_pos_t angle2) { asm_inline( "int $0x40" ::"a"(15), "b"(9), "c"(angle1.x*(1<<16)+angle2.x), "d"(angle1.y*(1<<16)+angle2.y) ); } /*=============== Function 16 - save ramdisk on a floppy. ==============*/ static inline int _ksys_save_ramdisk_fd(uint32_t floppy_id) { int status; // 0 - OK, 1 - ERROR asm_inline( "int $0x40" :"=a"(status) :"a"(16), "b"(floppy_id) ); return status; } /*======= Function 17 - get the identifier of the pressed button. ======*/ static inline uint32_t _ksys_get_button() { unsigned val; asm_inline( "int $0x40" :"=a"(val) :"a"(17) ); return val>>8; } /*===================== Function 18, subfunction 1 =====================*/ /*============= Make deactive the window of the given thread. ==========*/ static inline void _ksys_unfocus_window(int slot) { asm_inline( "int $0x40" ::"a"(18), "b"(1), "c"(slot) ); } /*= Function 18, subfunction 2 - terminate process/thread by the slot. =*/ static inline void _ksys_kill_by_slot(int slot) { asm_inline( "int $0x40" ::"a"(18), "b"(2), "c"(slot) ); } /*===================== Function 18, subfunction 3 =====================*/ /*============= Make active the window of the given thread. ============*/ static inline void _ksys_focus_window(int slot){ asm_inline( "int $0x40" ::"a"(18), "b"(3), "c"(slot) ); } /*===================== Function 18, subfunction 4 =====================*/ /*=========== Get counter of idle time units per one second. ===========*/ static inline uint32_t _ksys_get_idle(void){ uint32_t sec; asm_inline( "int $0x40" :"=a"(sec) :"a"(18), "b"(4) ); return sec; } /*========== Function 18, subfunction 5 - get CPU clock rate. ==========*/ /*================ modulo 2^32 clock ticks = 4GHz ======================*/ static inline uint32_t _ksys_get_cpu_clock(void){ uint32_t clock; asm_inline( "int $0x40" :"=a"(clock) :"a"(18), "b"(5) ); return clock; } /* Function 18, subfunction 6 - save ramdisk to the file on hard drive. */ static inline uint32_t _ksys_save_ramdisk_hd(const char* ramdisk_path){ uint32_t fs_err; asm_inline( "int $0x40" :"=a"(fs_err) :"a"(18), "b"(6), "c"(ramdisk_path) ); return fs_err; } /* Function 18, subfunction 9 - system shutdown with the parameter. */ enum KSYS_SHD_PARAM { KSYS_SHD_POWEROFF = 2, KSYS_SHD_REBOOT = 3, KSYS_SHD_RESTART_KRN = 4 }; static inline void _ksys_shutdown(uint32_t shd_param){ asm_inline( "int $0x40" ::"a"(18), "b"(9), "c"(shd_param) ); } /*========= Function 18, subfunction 16 - get size of free RAM. ========*/ static inline size_t _ksys_get_ram_size(void){ size_t size; asm_inline( "int $0x40" :"=a"(size) :"a"(18), "b"(16) ); return size; } /*======== Function 18, subfunction 17 - get full amount of RAM. =======*/ static inline size_t _ksys_get_full_ram(void){ size_t size; asm_inline( "int $0x40" :"=a"(size) :"a"(18), "b"(17) ); return size; } /*===================== Function 18, subfunction 18 ====================*/ /*============= Terminate process/thread by the identifier. ============*/ static inline void _ksys_kill_by_pid(uint32_t PID) { asm_inline( "int $0x40" ::"a"(18), "b"(18), "c"(PID) ); } /*===================== Function 18, subfunction 21 ====================*/ /*=====Get the slot number of the process / thread by identifier.. =====*/ static inline int _ksys_get_thread_slot(int PID){ int val; asm_inline( "int $0x40" :"=a"(val) :"a"(18), "b"(21), "c"(PID) ); return val; } /*============= Function 23 - wait for event with timeout. =============*/ static inline uint32_t _ksys_wait_event_timeout(uint32_t timeout){ unsigned val; asm_inline( "int $0x40" :"=a"(val) :"a"(23), "b"(timeout) ); return val; } /*=== Function 26, subfunction 9 - get the value of the time counter. ==*/ static inline uint32_t _ksys_get_tick_count(){ unsigned val; asm_inline( "int $0x40" :"=a"(val) :"a"(26),"b"(9) ); return val; } /*===================== Function 26, subfunction 10 ====================*/ /*========== Get the value of the high precision time counter. =========*/ static inline uint64_t _ksys_get_ns_count(){ uint64_t val; asm_inline( "int $0x40" :"=A"(val) :"a"(26), "b"(10) ); return val; } /*=================== Function 29 - get system date. ===================*/ static inline ksys_date_t _ksys_get_date(){ ksys_date_t val; asm_inline("int $0x40":"=a"(val):"a"(29)); return val; } /*===========+ Function 30 - work with the current folder.==============*/ /*--------- Subfunction 1 - set current folder for the thread. ---------*/ static inline void _ksys_setcwd(char* dir){ asm_inline( "int $0x40" ::"a"(30), "b"(1), "c"(dir) ); } /*--------- Subfunction 2 - get current folder for the thread. ---------*/ static inline int _ksys_getcwd(char* buf, int bufsize){ register int val; asm_inline( "int $0x40" :"=a"(val):"a"(30), "b"(2), "c"(buf), "d"(bufsize) ); return val; } /* ---- Subfunction 3 - install the add.system directory for the kernel ------*/ static inline int _ksys_set_kernel_dir(ksys_dir_key_t *table){ register int val; asm_inline( "int $0x40" :"=a"(val) :"a"(30), "b"(3), "c"(table) :"memory" ); return val; } /*=================== Function 37 - work with mouse. ===================*/ enum KSYS_MOUSE_POS{ KSYS_MOUSE_SCREEN_POS = 0, KSYS_MOUSE_WINDOW_POS = 1 }; static inline ksys_pos_t _ksys_get_mouse_pos(int origin){ ksys_pos_t pos; asm_inline( "int $0x40 \n\t" "rol $16, %%eax" :"=a"(pos) :"a"(37),"b"(origin) ); return pos; } static inline uint32_t _ksys_get_mouse_buttons(void){ // subfunction 2 - states of the mouse buttons uint32_t val; asm_inline( "int $0x40" :"=a"(val) :"a"(37),"b"(2) ); return val; } static inline uint32_t _ksys_get_mouse_eventstate(void){ // subfunction 3 - states and events of the mouse buttons uint32_t val; asm_inline( "int $0x40" :"=a"(val) :"a"(37),"b"(3) ); return val; } static inline uint32_t _ksys_load_cursor(void *path, uint32_t flags) { // subfunction 4 - load cursor uint32_t val; asm_inline( "int $0x40" :"=a"(val) :"a"(37), "b"(4), "c"(path), "d"(flags) :"memory" ); return val; } static inline uint32_t _ksys_set_cursor(uint32_t cursor){ // subfunction 5 - set curso uint32_t old; asm_inline( "int $0x40" :"=a"(old) :"a"(37), "b"(5), "c"(cursor) ); return old; } static inline int _ksys_delete_cursor(uint32_t cursor){ // subfunction 6 - delete curso int ret; asm_inline( "int $0x40" :"=a"(ret) :"a"(37), "b"(6), "c"(cursor) :"memory" ); return ret; } static inline uint32_t _ksys_get_mouse_wheels(void) // subfunction 7 - get scroll data { uint32_t val; asm_inline( "int $0x40" :"=a"(val) :"a"(37),"b"(7) ); return val; } /*=========== Function 40 - set the mask for expected events. ==========*/ enum KSYS_EVENT_MASK{ KSYS_EVM_REDRAW = 1, KSYS_EVM_KEY = 2, KSYS_EVM_BUTTON = 4, KSYS_EVM_EXIT = 8, KSYS_EVM_BACKGROUND = 16, KSYS_EVM_MOUSE = 32, KSYS_EVM_IPC = 64, KSYS_EVM_STACK = 128, KSYS_EVM_DEBUG = 256, KSYS_EVM_STACK2 = 512, KSYS_EVM_MOUSE_FILTER = 0x80000000, KSYS_EVM_CURSOR_FILTER = 0x40000000, }; static inline uint32_t _ksys_set_event_mask(uint32_t mask){ unsigned val; asm_inline( "int $0x40" :"=a"(val) :"a"(40), "b"(mask) ); return val; } /*====================== Function 38 - draw line. ======================*/ static inline void _ksys_draw_line(int xs, int ys, int xe, int ye, ksys_color_t color) { asm_inline( "int $0x40" ::"a"(38), "d"(color), "b"((xs << 16) | xe), "c"((ys << 16) | ye) ); } /*============= Function 47 - draw a number in the window. =============*/ static inline void _ksys_draw_number(int number, int x, int y, int len, ksys_color_t color){ unsigned fmt; fmt = len << 16 | 0x80000000; // no leading zeros + width asm_inline( "int $0x40" ::"a"(47), "b"(fmt), "c"(number), "d"((x << 16) | y), "S"(color) ); } static inline void _ksys_draw_number_bg(unsigned number, int x, int y, int len, ksys_color_t color, ksys_color_t bg){ unsigned fmt; fmt = len << 16 | 0x80000000; // no leading zeros + width asm_inline( "int $0x40" ::"a"(47), "b"(fmt), "c"(number), "d"((x << 16) | y), "S"(color), "D"(bg) ); } /*====== Function 48, subfunction 3 - get standard window colors. ======*/ static inline void _ksys_get_system_colors(ksys_colors_table_t *color_table) { asm_inline( "int $0x40" ::"a"(48),"b"(3),"c"(color_table),"d"(40) ); } /*============ Function 48, subfunction 4 - get skin height. ===========*/ static inline uint32_t _ksys_get_skin_height(){ unsigned height; asm_inline( "int $0x40" :"=a"(height) :"a"(48),"b"(4) ); return height; } /*==================== Function 51 - create thread. ====================*/ static inline int _ksys_create_thread(void* thread_entry, void* stack_top){ int val; asm_inline( "int $0x40" :"=a"(val) :"a"(51), "b"(1), "c"(thread_entry), "d"(stack_top) :"memory" ); return val; } /*==================== Function 54, subfunction 0 ======================*/ /*============== Get the number of slots in the clipboard. =============*/ enum KSYS_CLIP_ENCODING{ KSYS_CLIP_UTF8 = 0, KSYS_CLIP_CP866 = 1, KSYS_CLIP_CP1251 = 2 }; enum KSYS_CLIP_TYPES{ KSYS_CLIP_TEXT = 0, KSYS_CLIP_IMAGE = 1, KSYS_CLIP_RAW = 2 }; static inline int _ksys_clip_num(){ unsigned val; asm_inline( "int $0x40" :"=a"(val) :"a"(54), "b"(0) ); return val; } /*==================== Function 54, subfunction 1 ======================*/ /*================= Read the data from the clipboard. ==================-*/ static inline char* _ksys_clip_get(int n) { // returned buffer must be freed by _ksys_free() char* val; asm_inline( "int $0x40" :"=a"(val) :"a"(54), "b"(1), "c"(n) ); return val; } /*==================== Function 54, subfunction 2 ======================*/ /*================= Write the data to the clipboard. ===================*/ static inline int _ksys_clip_set(int n, char *buffer){ unsigned val; asm_inline( "int $0x40" :"=a"(val) :"a"(54), "b"(2), "c"(n), "d"(buffer) :"memory" ); return val; } /*===================== Function 54, subfunction 3 =====================*/ /*================ Delete the last slot in the clipboard ===============*/ static inline int _ksys_clip_pop(){ unsigned val; asm_inline ( "int $0x40" :"=a"(val) :"a"(54), "b"(3) ); return val; } /*===================== Function 54, subfunction 4 =====================*/ /*===================== Alarm reset the lock buffer ====================*/ static inline int _ksys_clip_unlock(){ unsigned val; asm_inline( "int $0x40" :"=a"(val) :"a"(54), "b"(4) ); return val; } /*============== Function 63 - work with the debug board. ==============*/ static inline void _ksys_debug_putc(char c){ asm_inline("int $0x40"::"a"(63), "b"(1), "c"(c)); } static inline void _ksys_debug_puts(char *s){ unsigned i=0; while (*(s+i)){ asm_inline ("int $0x40"::"a"(63), "b"(1), "c"(*(s+i))); i++; } } /*========= Function 67 - change position/sizes of the window. =========*/ static inline void _ksys_change_window(int new_x, int new_y, int new_w, int new_h){ asm_inline( "int $0x40" ::"a"(67), "b"(new_x), "c"(new_y), "d"(new_w),"S"(new_h) ); } /*======== Function 68, subfunction 12 - allocate memory block. ========*/ static inline void* _ksys_alloc(size_t size){ void *val; asm_inline( "int $0x40" :"=a"(val) :"a"(68),"b"(12),"c"(size) ); return val; } /*========== Function 68, subfunction 13 - free memory block. ==========*/ static inline int _ksys_free(void *mem){ int val; asm_inline( "int $0x40" :"=a"(val) :"a"(68),"b"(13),"c"(mem) ); return val; } /*============= Function 68, subfunction 16 - load driver. =============*/ static inline ksys_drv_hand_t _ksys_load_driver(char *driver_name) { ksys_drv_hand_t driver_h; asm_inline( "int $0x40" :"=a"(driver_h) :"a"(68), "b"(16), "c"(driver_name) ); return driver_h; } /*============ Function 68, subfunction 17 - driver control. ===========*/ static inline unsigned _ksys_driver_control(ksys_ioctl_t *ioctl) { unsigned status; asm_inline( "int $0x40" :"=a"(status) :"a"(68), "b"(17), "c"(ioctl) :"memory" ); return status; } /*== Function 68, subfunction 18 - subfunction 19 - load DLL (MS COFF) ==*/ static inline ksys_dll_t* _ksys_dlopen(const char* path){ ksys_dll_t *table; asm_inline( "int $0x40" :"=a"(table) :"a"(68),"b"(19), "c"(path) :"memory" ); return table; } /* It is not a system call, it serves as an auxiliary tool*/ static inline void* _ksys_dlsym(ksys_dll_t *table, const char* fun_name){ unsigned i=0; while (1){ if (!(table+i)->func_name){ break; }else{ if (!_ksys_strcmp(fun_name, (table+i)->func_name)){ return (table+i)->func_ptr; } } i++; } return NULL; } /* Function 68, subfunction 20 - reallocate memory block.*/ static inline void* _ksys_realloc(void *mem, size_t size){ void *val; asm_inline( "int $0x40" :"=a"(val) :"a"(68),"b"(20),"c"(size),"d"(mem) :"memory" ); return val; } /* Function 68, subfunction 21 - load driver by full name. */ static inline ksys_drv_hand_t _ksys_load_driver_opt(char *driver_path, char *cmd_line) { ksys_drv_hand_t driver_h; asm_inline( "int $0x40" :"=a"(driver_h) :"a"(68), "b"(21), "c"(driver_path), "d"(cmd_line) ); return driver_h; } /*======== Function 68, subfunction 22 - open named memory area. =======*/ enum KSYS_SHM_MODE{ KSYS_SHM_OPEN = 0x00, KSYS_SHM_OPEN_ALWAYS = 0x04, KSYS_SHM_CREATE = 0x08, KSYS_SHM_READ = 0x00, KSYS_SHM_WRITE = 0x01, }; static inline int _ksys_shm_open(char *name, int mode, int size, char **new_shm) { int error; asm_inline( "int $0x40" :"=a"(*new_shm), "=d"(error) :"a"(68), "b"(22), "c"(name), "d"(size), "S"(mode) ); return error; } /*======= Function 68, subfunction 23 - close named memory area. =======*/ static inline void _ksys_shm_close(char *shm_name) { asm_inline( "int $0x40": :"a"(68), "b"(23), "c"(shm_name) ); } /*====== Function 68, subfunction 26 - release memory pages ============*/ static inline int* _ksys_unmap(void *base, size_t offset, size_t size){ int *val; asm_inline( "int $0x40" :"=a"(val) :"a"(68),"b"(26),"c"(base),"d"(offset),"S"(size) ); return val; } /*========== Function 68, subfunction 27 - load file ===================*/ static inline ksys_ufile_t _ksys_load_file(const char *path) { ksys_ufile_t uf; asm_inline( "int $0x40" :"=a"(uf.data), "=d"(uf.size) :"a"(68), "b"(27),"c"(path) :"memory" ); return uf; } /*==== Function 68, subfunction 28 - load file, specifying the encoding ===*/ static inline ksys_ufile_t _ksys_load_file_enc(const char *path, unsigned file_encoding) { ksys_ufile_t uf; asm_inline( "int $0x40" :"=a"(uf.data), "=d"(uf.size) :"a"(68), "b"(28),"c"(path), "d"(file_encoding) :"memory" ); return uf; } /*==== Function 70 - work with file system with long names support. ====*/ static inline int _ksys_work_files(const ksys70_t *k) { int status; asm_inline( "int $0x40" :"=a"(status) :"a"(70), "b"(k) :"memory" ); return status; } /*====== Function 70, subfunction 0 - read file with long names support. ======*/ static inline int _ksys_file_read_file(const char *name, unsigned long long offset, unsigned size, void *buf, unsigned *bytes_read) { ksys70_t k; k.p00 = 0; k.p04 = offset; k.p12 = size; k.buf16 = buf; k.p20 = 0; k.p21 = name; int status; unsigned bytes_read_v; asm_inline( "int $0x40" :"=a"(status), "=b"(bytes_read_v) :"a"(70), "b"(&k) :"memory" ); if (!status) { *bytes_read = bytes_read_v; } return status; } /*===================== Function 70, subfunction 2 =====================*/ /*============ Create/rewrite file with long names support. ============*/ static inline int _ksys_file_create(const char* name){ ksys70_t k; k.p00 = 2; k.p12 = 0; k.p21 = name; return _ksys_work_files(&k); } /*===================== Function 70, subfunction 3 =====================*/ /*=========== Write to existing file with long names support. ==========*/ static inline int _ksys_file_write_file(const char *name, unsigned long long offset, unsigned size, const void *buf, unsigned *bytes_written) { ksys70_t k; k.p00 = 3; k.p04 = offset; k.p12 = size; k.cbuf16 = buf; k.p20 = 0; k.p21 = name; int status; unsigned bytes_written_v; asm_inline( "int $0x40" :"=a"(status), "=b"(bytes_written_v) :"a"(70), "b"(&k) :"memory" ); if (!status) { *bytes_written = bytes_written_v; } return status; } /*========== Function 70, subfunction 5 - get information on file/folder. =====*/ static inline int _ksys_file_get_info(const char *name, ksys_bdfe_t *bdfe) { ksys70_t k; k.p00 = 5; k.bdfe = bdfe; k.p20 = 0; k.p21 = name; return _ksys_work_files(&k); } /*=========== Function 70, subfunction 7 - start application. ===========*/ static inline int _ksys_exec(char *app_name, char *args) { ksys70_t file_opt; file_opt.p00 = 7; file_opt.p04dw = 0; file_opt.p08dw = (unsigned)args; file_opt.p21 = app_name; return _ksys_work_files(&file_opt); } /*========== Function 70, subfunction 8 - delete file/folder. ==========*/ static inline int _ksys_file_delete(const char *name) { ksys70_t k; k.p00 = 8; k.p20 = 0; k.p21 = name; return _ksys_work_files(&k); } /*============= Function 70, subfunction 9 - create folder. ============*/ static inline int _ksys_mkdir(const char *path) { ksys70_t dir_opt; dir_opt.p00 = 9; dir_opt.p21 = path; return _ksys_work_files(&dir_opt); } /*============= Function 70, subfunction 10 - rename/move. =============*/ static inline int _ksys_file_rename(const char *name, const char *new_name) { ksys70_t k; k.p00 = 10; k.new_name = new_name; k.p20 = 0; k.p21 = name; return _ksys_work_files(&k); } /* ######### Old names of functions and structures. Do not use again! ##########*/ #define _ksys_get_event _ksys_wait_event #endif // _KSYS_H_