void init_keyboard(void) { wait_KBC_sendready(); io_out8(PORT_KEYCMD,KEYCMD_WRITE_MODE); //模式设定指令0x60 wait_KBC_sendready(); io_out8(PORT_KEYDAT,KBC_MODE);//鼠标模式的模式号码0x47 return; }
void enable_mouse(void) { wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_SENDTO_MOUSE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, MOUSECMD_ENABLE); return; }
/* 激活鼠标 */ void enable_mouse(void) { wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_SENDTO_MOUSE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, MOUSECMD_ENABLE); return; /* 顺利的话,键盘控制器会返送回ACK(0xfa) */ }
void init_keyboard(void) { wait_KBC_sendready(); io_out8(PORT_KEYCMD,KEYCMD_WRITE_MODE); // mode setting instruction wait_KBC_sendready(); io_out8(PORT_KEYDAT,KBC_MODE); return; }
void init_keyboard(void) { wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_WRITE_MODE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, KBC_MODE); return; }
void init_keyboard(void) { /* キーボードコントローラの初期化 */ wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_WRITE_MODE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, KBC_MODE); return; }
/*激活鼠标*/ void enable_mouse(struct MOUSE_DEC *mdec) { wait_KBC_sendready(); io_out8(PORT_KEYCMD,KEYCMD_SENDTO_MOUSE); wait_KBC_sendready(); io_out8(PORT_KEYDAT,MOUSECMD_ENABLE); mdec->phase=0; return; }
/* 激活鼠标 */ void enable_mouse(struct MOUSE_DEC *mdec) { wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_SENDTO_MOUSE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, MOUSECMD_ENABLE); mdec->phase = 0; /* 进入到等待鼠标的0xfa的状态 */ return; /* 顺利的话,键盘控制器会返送回ACK(0xfa) */ }
void init_keyboard(struct FIFO32 *fifo, int data0) { keyfifo = fifo; keydata0 = data0; wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_WRITE_MODE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, KBC_MODE); return; }
void enable_mouse(struct MOUSE_DEC *mdec) { wait_KBC_sendready(); //等待port 0x0060,0x0064可用 outb(PORT_KEYCMD,KEYCMD_SENDTO_MOUSE);//向port 0x0064 写 0XD4命令 下面的命令发给mouse wait_KBC_sendready(); //等待port 0x0060,0x0064可用 outb(PORT_KEYDAT,MOUSECMD_ENABLE); //向port 0x0060 写 0Xf4命令 给mouse发送enable命令 mdec->phase=0; return ; //if sucessful ,will create an interrupt ,and return 0xfa(ACK),产生的这个0xfa是给cpu的答复信号 //就算鼠标不动,也会产生这个中断,所以我们一调用enable_mouse,就会产生鼠标中断,必须有这个服务函数。 }
void init_keyboard(struct FIFO32 *fifo, int data0) { /* 将FIFO缓冲区的信息保存到全局变量里 */ keyfifo = fifo; keydata0 = data0; /* 键盘控制器的初始化 */ wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_WRITE_MODE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, KBC_MODE); return; }
void init_keyboard(struct FIFO32 *fifo, int data0) { /* 设置放键盘数据的缓冲区,以及区别键盘数据的初始值 */ keyfifo = fifo; keydata0 = data0; /* 初始化键盘控制电路 */ wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_WRITE_MODE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, KBC_MODE); return; }
void init_keyboard(struct FIFO32 *fifo,int data0)//初始化键盘控制电路 { /*将FIFO缓冲区里的信息保存到全局变量里*/ keyfifo=fifo; keydata0=data0; //键盘控制器初始化 wait_KBC_sendready();//让键盘控制电路做好准备,等待控制指令的到来 io_out8(PORT_KEYCMD, KEYCMD_WRITE_MODE);//键盘模式设置指令 wait_KBC_sendready(); io_out8(PORT_KEYDAT, KBC_MODE);//鼠标模式设置指令 return; }
void init_keyboard(struct FIFO32 *fifo, int data0) { // the information of FIFO is saved in global variables keyfifo = fifo; keydata0 = data0; /* initialize KBC */ wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_WRITE_MODE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, KBC_MODE); return; }
void init_keyboard(struct FIFO32 *fifo, int data0) { /* 書き込み先のFIFOバッファを記憶 */ keyfifo = fifo; keydata0 = data0; /* キーボードコントローラの初期化 */ wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_WRITE_MODE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, KBC_MODE); return; }
void enable_mouse(struct _mousedec *mdec) { /* Init Mouse Buffer */ fifo8_init(&moufifo, MO_BUFSIZE, moubuf); wait_KBC_sendready(); /* Indicate KBC to propagate next instruction to mouse */ io_out8(PORT_KEYCMD, KEYCMD_SENDTO_MOUSE); wait_KBC_sendready(); /* Mouse CMD: Enable mouse */ io_out8(PORT_KEYDAT, MOUSECMD_ENABLE); /* Set phase to 0 */ mdec->phase = 0; return; }
void enable_mouse(struct FIFO32 *fifo, int data0, struct MOUSE_DEC *mdec) { mousefifo = fifo; mousedata0 = data0; wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_SENDTO_MOUSE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, MOUSECMD_ENABLE); mdec->phase = 0; return; }
/* 激活鼠标 */ void enable_mouse(struct FIFO32 *fifo, int data0, struct MOUSE_DEC *mdec) { mousefifo = fifo; mousedata0 = data0; wait_KBC_sendready(); /* 清空i8042的输入缓冲区 */ io_out8(PORT_KEYCMD, KEYCMD_SENDTO_MOUSE); /* 向i8042写入命令 */ /* 该命令表示将发生0x60端口的参数数据发生给鼠标 */ wait_KBC_sendready(); /* 清空i8042的输入缓冲区 */ io_out8(PORT_KEYDAT, MOUSECMD_ENABLE); /* 允许鼠标发数据 */ mdec->phase = 0; /* 等待0xfa的阶段 */ return; }
/* 激活鼠标 */ void enable_mouse(struct FIFO32 *fifo, int data0, struct MOUSE_DEC *mdec) { /* 将FIFO缓冲区的信息保存到全局变量里 */ mousefifo = fifo; mousedata0 = data0; /* 鼠标有效 */ wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_SENDTO_MOUSE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, MOUSECMD_ENABLE); /* 顺利的话,ACK(0xfa)会被发送 */ mdec->phase = 0; /* 进入到等待鼠标的0xfa的状态 */ return; /* 顺利的话,键盘控制器会返送回ACK(0xfa) */ }
void init_keyboard(struct FIFO32 *fifo, int data0) { char cw = 0; fifo_keyboard = fifo; keyboard_data0 = data0; wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_WRITE_MODE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, KBC_MODE); cw = io_in8(PIC0_IMR); cw = cw & 0xfd; io_out8(PIC0_IMR, cw); return; }
void enable_mouse(struct FIFO32 *fifo, int data0, struct MOUSE_DEC *mdec) { // the information of FIFO is saved in global variables mousefifo = fifo; mousedata0 = data0; /* activate mouse */ wait_KBC_sendready(); io_out8(PORT_KEYCMD, KEYCMD_SENDTO_MOUSE); wait_KBC_sendready(); io_out8(PORT_KEYDAT, MOUSECMD_ENABLE); // if things go well, ACK(0xfa) will be sent mdec->phase = 0; // waiting for mouse's 0xfa return; }
/* 初始化键盘控制电路 */ void init_keyboard(struct FIFO32 *fifo, int data0) { keyfifo = fifo; keydata0 = data0; wait_KBC_sendready(); /* 清空i8042的输入缓冲区 */ io_out8(PORT_KEYCMD, KEYCMD_WRITE_MODE); /* 向i8042写入命令 */ /* 该命令表示准备写入i8042的控制寄存器 下一个通过60h端口写入的字节将被放入 i8042的控制寄存器中 */ wait_KBC_sendready(); /* 清空i8042的输入缓冲区 */ io_out8(PORT_KEYDAT, KBC_MODE); /* 将KBC_MODE放入i8042的控制寄存器中 开启鼠标、键盘 允许鼠标中断和键盘中断 */ return; }
void HariMain(void) { struct BOOTINFO *binfo = (struct BOOTINFO *) 0x0ff0;//the boot info saved in asmhead char s[40]; int mx, my, i, cursor_x, cursor_c; unsigned int memtotal; struct MOUSE_DEC mdec; //内存管理结构地址 struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR; struct SHTCTL *shtctl; static char keytable0[0x80] = { 0, 0, '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', '-', '^', 0, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '@', '[', 0, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', ';', ':', 0, 0, ']', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', ',', '.', '/', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0 }; static char keytable1[0x80] = { 0, 0, '!', 0x22, '#', '$', '%', '&', 0x27, '(', ')', '~', '=', '~', 0, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '`', '{', 0, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', '+', '*', 0, 0, '}', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', '<', '>', '?', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '_', 0, 0, 0, 0, 0, 0, 0, 0, 0, '|', 0, 0 }; unsigned char *buf_back, buf_mouse[256], *buf_win, *buf_win_b, *buf_cons; struct SHEET *sht_back, *sht_mouse, *sht_win, *sht_win_b[3], *sht_cons; struct TASK *task_a, *task_b[3], *task_cons; struct TIMER *timer; int key_to = 0, key_shift = 0, key_leds = (binfo->leds >> 4) & 7, keycmd_wait = -1; struct FIFO32 fifo, keycmd; int fifobuf[128], keycmd_buf[32]; init_gdtidt(); init_pic();//init the programed interrupt controller. io_sti(); // enable interrupt fifo32_init(&fifo, 128, fifobuf, 0);//初始化队列 init_pit();//初始化计时器; init_keyboard(&fifo, 256); enable_mouse(&fifo, 512, &mdec);//鼠标中断 io_out8(PIC0_IMR, 0xf8); /* PIC1 允许 0(timer),1,2号中断,屏蔽其他(11111000) */ io_out8(PIC1_IMR, 0xef); /* 允许c号中断,屏蔽其他(11101111) */ fifo32_init(&keycmd, 32, keycmd_buf, 0); //内存管理初始化 memtotal = memtest(0x00400000, 0xbfffffff); memman_init(memman); memman_free(memman, 0x00001000, 0x0009e000); /* 0x00001000 - 0x0009efff */ memman_free(memman, 0x00400000, memtotal - 0x00400000); init_palette(); //调色板 shtctl = shtctl_init(memman, binfo->vram, binfo->scrnx, binfo->scrny);//对图层管理结构体的初始化 task_a = task_init(memman); fifo.task = task_a; task_run(task_a,1,0); *((int *) 0x0fe4) = (int) shtctl; /* sht_back */ sht_back = sheet_alloc(shtctl); buf_back = (unsigned char *) memman_alloc_4k(memman, binfo->scrnx * binfo->scrny); sheet_setbuf(sht_back, buf_back, binfo->scrnx, binfo->scrny, -1); /* 无透明色 */ /*桌面先显示到内存中*/ init_screen8(buf_back, binfo->scrnx, binfo->scrny); /* sht_cons */ sht_cons = sheet_alloc(shtctl); buf_cons = (unsigned char *) memman_alloc_4k(memman, 256 * 165); sheet_setbuf(sht_cons, buf_cons, 256, 165, -1); /* 摟柧怓側偟 */ make_window8(buf_cons, 256, 165, "console", 0); make_textbox8(sht_cons, 8, 28, 240, 128, COL8_000000); task_cons = task_alloc(); task_cons->tss.esp = memman_alloc_4k(memman, 64 * 1024) + 64 * 1024 - 12; task_cons->tss.eip = (int) &console_task; task_cons->tss.es = 1 * 8; task_cons->tss.cs = 2 * 8; task_cons->tss.ss = 1 * 8; task_cons->tss.ds = 1 * 8; task_cons->tss.fs = 1 * 8; task_cons->tss.gs = 1 * 8; *((int *) (task_cons->tss.esp + 4)) = (int) sht_cons; *((int *) (task_cons->tss.esp + 8)) = memtotal; task_run(task_cons, 2, 2); /* level=2, priority=2 */ /* sht_mouse */ sht_mouse = sheet_alloc(shtctl); sheet_setbuf(sht_mouse, buf_mouse, 16, 16, 99); /*鼠标显示到内存中*/ init_mouse_cursor8(buf_mouse, 99); mx = (binfo->scrnx - 16) / 2; /* 夋柺拞墰偵側傞傛偆偵嵗昗寁嶼 */ my = (binfo->scrny - 28 - 16) / 2; /* sht_win_b */ for (i = 0; i < 3; i++) { sht_win_b[i] = sheet_alloc(shtctl); buf_win_b = (unsigned char *) memman_alloc_4k(memman, 144 * 52); sheet_setbuf(sht_win_b[i], buf_win_b, 144, 52, -1); /* 无透明 */ sprintf(s, "task_b%d", i); make_window8(buf_win_b, 144, 52, s, 0); task_b[i] = task_alloc(); task_b[i]->tss.esp = memman_alloc_4k(memman, 64 * 1024) + 64 * 1024 - 8; task_b[i]->tss.eip = (int) &task_b_main; task_b[i]->tss.es = 1 * 8; task_b[i]->tss.cs = 2 * 8; task_b[i]->tss.ss = 1 * 8; task_b[i]->tss.ds = 1 * 8; task_b[i]->tss.fs = 1 * 8; task_b[i]->tss.gs = 1 * 8; *((int *) (task_b[i]->tss.esp + 4)) = (int) sht_win_b[i]; //task_run(task_b[i],2,i+1); } /* sht_win */ sht_win = sheet_alloc(shtctl); buf_win = (unsigned char *) memman_alloc_4k(memman, 160 * 52); sheet_setbuf(sht_win, buf_win, 144, 52, -1); /* 摟柧怓側偟 */ make_window8(buf_win, 144, 52, "task_a", 1); make_textbox8(sht_win, 8, 28, 128, 16, COL8_FFFFFF); cursor_x = 8; cursor_c = COL8_FFFFFF;//白色 timer = timer_alloc(); timer_init(timer, &fifo, 1); timer_settime(timer, 50); sheet_slide(sht_back, 0, 0); sheet_slide(sht_win_b[0], 168, 56); sheet_slide(sht_win_b[1], 8, 116); sheet_slide(sht_win_b[2], 168, 116); sheet_slide(sht_win, 8, 56); sheet_slide(sht_mouse, mx, my); sheet_slide(sht_cons, 32, 4); /*设置图层高度,并显示*/ sheet_slide(sht_back, 0, 0); sheet_slide(sht_cons, 32, 4); sheet_slide(sht_win, 64, 56); sheet_slide(sht_mouse, mx, my); sheet_updown(sht_back, 0); sheet_updown(sht_cons, 1); sheet_updown(sht_win, 2); sheet_updown(sht_mouse, 3); //键盘指示灯 fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); for (;;) { if (fifo32_status(&keycmd) > 0 && keycmd_wait < 0) { /* 如果存在向键盘控制器发送的的数据,则发送 */ keycmd_wait = fifo32_get(&keycmd); wait_KBC_sendready(); io_out8(PORT_KEYDAT, keycmd_wait); } io_cli(); if (fifo32_status(&fifo) == 0) { task_sleep(task_a); io_sti(); } else{ i = fifo32_get(&fifo); io_sti(); if (256 <= i && i <= 511) { /*键盘数据 */ if (i < 0x80 + 256) { /* 将按键编码转换成字符编码 */ if (key_shift == 0) { s[0] = keytable0[i - 256]; } else { s[0] = keytable1[i - 256]; } } else { s[0] = 0; } if ('A' <= s[0] && s[0] <= 'Z') { /* 当输入的字符为英文字母时 */ if (((key_leds & 4) == 0 && key_shift == 0) || ((key_leds & 4) != 0 && key_shift != 0)) { s[0] += 0x20; /* 将大写字母转换时为小写字母 */ } } if (s[0] != 0) { /* 一般字符 */ if (key_to == 0) { /* 发送给任务A */ if (cursor_x < 128) { s[1] = 0; putfonts8_asc_sht(sht_win, cursor_x, 28, COL8_000000, COL8_FFFFFF, s, 1); cursor_x += 8; } } else { /* 发送给命令行窗口 */ fifo32_put(&task_cons->fifo, s[0] + 256); } } if (i == 256 + 0x0e) { /* 退格键 */ if (key_to == 0) { /* 发送给任务A */ if (cursor_x > 8) { /* 用白色擦出光标后将光标前移移位*/ putfonts8_asc_sht(sht_win, cursor_x, 28, COL8_000000, COL8_FFFFFF, " ", 1); cursor_x -= 8; } } else { /* 发送给命令窗口 */ fifo32_put(&task_cons->fifo, 8 + 256); } } if (i == 256 + 0x3a) { /* CapsLock */ key_leds ^= 4; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x45) { /* NumLock */ key_leds ^= 2; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x46) { /* ScrollLock */ key_leds ^= 1; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x0f) { /* Tab */ if (key_to == 0) { key_to = 1; make_wtitle8(buf_win, sht_win->bxsize, "task_a", 0); make_wtitle8(buf_cons, sht_cons->bxsize, "console", 1); cursor_c = -1; /* 不显示光标 */ boxfill8(sht_win->buf, sht_win->bxsize, COL8_FFFFFF, cursor_x, 28, cursor_x + 7, 43); fifo32_put(&task_cons->fifo, 2); /* 令命令行窗口光标ON */ } else { key_to = 0; make_wtitle8(buf_win, sht_win->bxsize, "task_a", 1); make_wtitle8(buf_cons, sht_cons->bxsize, "console", 0); cursor_c = COL8_000000; /* 显示光标 */ fifo32_put(&task_cons->fifo, 3); /* 令命令行窗口光标OFF */ } sheet_refresh(sht_win, 0, 0, sht_win->bxsize, 21); sheet_refresh(sht_cons, 0, 0, sht_cons->bxsize, 21); } if (i == 256 + 0x2a) { /* ON */ key_shift |= 1; } if (i == 256 + 0x36) { /* ON */ key_shift |= 2; } if (i == 256 + 0xaa) { /* OFF */ key_shift &= ~1; } if (i == 256 + 0xb6) { /* OFF */ key_shift &= ~2; } if (i == 256 + 0xfa) { /* 键盘成功接收 */ keycmd_wait = -1; } if (i == 256 + 0xfe) { /* 键盘没有成功接收到数据 */ wait_KBC_sendready(); io_out8(PORT_KEYDAT, keycmd_wait); } if (i == 256 + 0x1c) { /* Enter */ if (key_to != 0) { /* 发送命令给窗口 */ fifo32_put(&task_cons->fifo, 10 + 256); } } //重新显示光标 if (cursor_c >= 0) { boxfill8(sht_win->buf, sht_win->bxsize, cursor_c, cursor_x, 28, cursor_x + 7, 43); } sheet_refresh(sht_win, cursor_x, 28, cursor_x + 8, 44); } else if (512 <= i && i <= 767) { /* 鼠标数据 */ if (mouse_decode(&mdec, i - 512) != 0) { /* 鼠标指针移动 */ mx += mdec.x; my += mdec.y; if (mx < 0) { mx = 0; } if (my < 0) { my = 0; } if (mx > binfo->scrnx - 1) { mx = binfo->scrnx - 1; } if (my > binfo->scrny - 1) { my = binfo->scrny - 1; } sheet_slide(sht_mouse, mx, my); if ((mdec.btn & 0x01) != 0) { /* 始终定位鼠标的左上角 */ sheet_slide(sht_win, mx - 80, my - 8); } } }else if (i <= 1) { /* 光标定时器 */ if (i != 0) { timer_init(timer, &fifo, 0); /* 下次置0 */ if (cursor_c >= 0) { cursor_c = COL8_000000; } } else { timer_init(timer, &fifo, 1); /* 下次置1 */ if (cursor_c >= 0) { cursor_c = COL8_FFFFFF; } } timer_settime(timer, 50); if (cursor_c >= 0) { boxfill8(sht_win->buf, sht_win->bxsize, cursor_c, cursor_x, 28, cursor_x + 7, 43); sheet_refresh(sht_win, cursor_x, 28, cursor_x + 8, 44); } } } } }
void HariMain(void) { struct BOOTINFO *binfo = (struct BOOTINFO *) ADR_BOOTINFO; struct SHTCTL *shtctl; char s[40]; struct FIFO32 fifo, keycmd; int fifobuf[128], keycmd_buf[32]; int mx, my, i, cursor_x, cursor_c; unsigned int memtotal; struct MOUSE_DEC mdec; struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR; unsigned char *buf_back, buf_mouse[256], *buf_win, *buf_cons; struct SHEET *sht_back, *sht_mouse, *sht_win, *sht_cons; struct TASK *task_a, *task_cons; struct TIMER *timer; static char keytable0[0x80] = { 0, 0, '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', '-', '^', 0, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '@', '[', 0, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', ';', ':', 0, 0, ']', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', ',', '.', '/', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0 }; static char keytable1[0x80] = { 0, 0, '!', 0x22, '#', '$', '%', '&', 0x27, '(', ')', '~', '=', '~', 0, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '`', '{', 0, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', '+', '*', 0, 0, '}', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', '<', '>', '?', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '_', 0, 0, 0, 0, 0, 0, 0, 0, 0, '|', 0, 0 }; int key_to = 0, key_shift = 0, key_leds = (binfo->leds >> 4) & 7, keycmd_wait = -1; struct CONSOLE *cons; init_gdtidt(); init_pic(); io_sti(); /* IDT/PICの初期化が終わったのでCPUの割り込み禁止を解除 */ fifo32_init(&fifo, 128, fifobuf, 0); init_pit(); init_keyboard(&fifo, 256); enable_mouse(&fifo, 512, &mdec); io_out8(PIC0_IMR, 0xf8); /* PITとPIC1とキーボードを許可(11111000) */ io_out8(PIC1_IMR, 0xef); /* マウスを許可(11101111) */ fifo32_init(&keycmd, 32, keycmd_buf, 0); memtotal = memtest(0x00400000, 0xbfffffff); memman_init(memman); memman_free(memman, 0x00001000, 0x0009e000); /* 0x00001000 - 0x0009efff */ memman_free(memman, 0x00400000, memtotal - 0x00400000); init_palette(); shtctl = shtctl_init(memman, binfo->vram, binfo->scrnx, binfo->scrny); task_a = task_init(memman); fifo.task = task_a; task_run(task_a, 1, 2); *((int *) 0x0fe4) = (int) shtctl; /* sht_back */ sht_back = sheet_alloc(shtctl); buf_back = (unsigned char *) memman_alloc_4k(memman, binfo->scrnx * binfo->scrny); sheet_setbuf(sht_back, buf_back, binfo->scrnx, binfo->scrny, -1); /* 透明色なし */ init_screen8(buf_back, binfo->scrnx, binfo->scrny); /* sht_cons */ sht_cons = sheet_alloc(shtctl); buf_cons = (unsigned char *) memman_alloc_4k(memman, 256 * 165); sheet_setbuf(sht_cons, buf_cons, 256, 165, -1); /* 透明色なし */ make_window8(buf_cons, 256, 165, "console", 0); make_textbox8(sht_cons, 8, 28, 240, 128, COL8_000000); task_cons = task_alloc(); task_cons->tss.esp = memman_alloc_4k(memman, 64 * 1024) + 64 * 1024 - 12; task_cons->tss.eip = (int) &console_task; task_cons->tss.es = 1 * 8; task_cons->tss.cs = 2 * 8; task_cons->tss.ss = 1 * 8; task_cons->tss.ds = 1 * 8; task_cons->tss.fs = 1 * 8; task_cons->tss.gs = 1 * 8; *((int *) (task_cons->tss.esp + 4)) = (int) sht_cons; *((int *) (task_cons->tss.esp + 8)) = memtotal; task_run(task_cons, 2, 2); /* level=2, priority=2 */ /* sht_win */ sht_win = sheet_alloc(shtctl); buf_win = (unsigned char *) memman_alloc_4k(memman, 160 * 52); sheet_setbuf(sht_win, buf_win, 144, 52, -1); /* 透明色なし */ make_window8(buf_win, 144, 52, "task_a", 1); make_textbox8(sht_win, 8, 28, 128, 16, COL8_FFFFFF); cursor_x = 8; cursor_c = COL8_FFFFFF; timer = timer_alloc(); timer_init(timer, &fifo, 1); timer_settime(timer, 50); /* sht_mouse */ sht_mouse = sheet_alloc(shtctl); sheet_setbuf(sht_mouse, buf_mouse, 16, 16, 99); init_mouse_cursor8(buf_mouse, 99); mx = (binfo->scrnx - 16) / 2; /* 画面中央になるように座標計算 */ my = (binfo->scrny - 28 - 16) / 2; sheet_slide(sht_back, 0, 0); sheet_slide(sht_cons, 32, 4); sheet_slide(sht_win, 64, 56); sheet_slide(sht_mouse, mx, my); sheet_updown(sht_back, 0); sheet_updown(sht_cons, 1); sheet_updown(sht_win, 2); sheet_updown(sht_mouse, 3); /* 最初にキーボード状態との食い違いがないように、設定しておくことにする */ fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); for (;;) { if (fifo32_status(&keycmd) > 0 && keycmd_wait < 0) { /* キーボードコントローラに送るデータがあれば、送る */ keycmd_wait = fifo32_get(&keycmd); wait_KBC_sendready(); io_out8(PORT_KEYDAT, keycmd_wait); } io_cli(); if (fifo32_status(&fifo) == 0) { task_sleep(task_a); io_sti(); } else { i = fifo32_get(&fifo); io_sti(); if (256 <= i && i <= 511) { /* キーボードデータ */ if (i < 0x80 + 256) { /* キーコードを文字コードに変換 */ if (key_shift == 0) { s[0] = keytable0[i - 256]; } else { s[0] = keytable1[i - 256]; } } else { s[0] = 0; } if ('A' <= s[0] && s[0] <= 'Z') { /* 入力文字がアルファベット */ if (((key_leds & 4) == 0 && key_shift == 0) || ((key_leds & 4) != 0 && key_shift != 0)) { s[0] += 0x20; /* 大文字を小文字に変換 */ } } if (s[0] != 0) { /* 通常文字 */ if (key_to == 0) { /* タスクAへ */ if (cursor_x < 128) { /* 一文字表示してから、カーソルを1つ進める */ s[1] = 0; putfonts8_asc_sht(sht_win, cursor_x, 28, COL8_000000, COL8_FFFFFF, s, 1); cursor_x += 8; } } else { /* コンソールへ */ fifo32_put(&task_cons->fifo, s[0] + 256); } } if (i == 256 + 0x0e) { /* バックスペース */ if (key_to == 0) { /* タスクAへ */ if (cursor_x > 8) { /* カーソルをスペースで消してから、カーソルを1つ戻す */ putfonts8_asc_sht(sht_win, cursor_x, 28, COL8_000000, COL8_FFFFFF, " ", 1); cursor_x -= 8; } } else { /* コンソールへ */ fifo32_put(&task_cons->fifo, 8 + 256); } } if (i == 256 + 0x1c) { /* Enter */ if (key_to != 0) { /* コンソールへ */ fifo32_put(&task_cons->fifo, 10 + 256); } } if (i == 256 + 0x0f) { /* Tab */ if (key_to == 0) { key_to = 1; make_wtitle8(buf_win, sht_win->bxsize, "task_a", 0); make_wtitle8(buf_cons, sht_cons->bxsize, "console", 1); cursor_c = -1; /* カーソルを消す */ boxfill8(sht_win->buf, sht_win->bxsize, COL8_FFFFFF, cursor_x, 28, cursor_x + 7, 43); fifo32_put(&task_cons->fifo, 2); /* コンソールのカーソルON */ } else { key_to = 0; make_wtitle8(buf_win, sht_win->bxsize, "task_a", 1); make_wtitle8(buf_cons, sht_cons->bxsize, "console", 0); cursor_c = COL8_000000; /* カーソルを出す */ fifo32_put(&task_cons->fifo, 3); /* コンソールのカーソルOFF */ } sheet_refresh(sht_win, 0, 0, sht_win->bxsize, 21); sheet_refresh(sht_cons, 0, 0, sht_cons->bxsize, 21); } if (i == 256 + 0x2a) { /* 左シフト ON */ key_shift |= 1; } if (i == 256 + 0x36) { /* 右シフト ON */ key_shift |= 2; } if (i == 256 + 0xaa) { /* 左シフト OFF */ key_shift &= ~1; } if (i == 256 + 0xb6) { /* 右シフト OFF */ key_shift &= ~2; } if (i == 256 + 0x3a) { /* CapsLock */ key_leds ^= 4; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x45) { /* NumLock */ key_leds ^= 2; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x46) { /* ScrollLock */ key_leds ^= 1; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x3b && key_shift != 0 && task_cons->tss.ss0 != 0) { /* Shift+F1 */ cons = (struct CONSOLE *) *((int *) 0x0fec); cons_putstr0(cons, "\nBreak(key) :\n"); io_cli(); /* 強制終了処理中にタスクが変わると困るから */ task_cons->tss.eax = (int) &(task_cons->tss.esp0); task_cons->tss.eip = (int) asm_end_app; io_sti(); } if (i == 256 + 0x57 && shtctl->top > 2) { /* F11 */ sheet_updown(shtctl->sheets[1], shtctl->top - 1); } if (i == 256 + 0xfa) { /* キーボードがデータを無事に受け取った */ keycmd_wait = -1; } if (i == 256 + 0xfe) { /* キーボードがデータを無事に受け取れなかった */ wait_KBC_sendready(); io_out8(PORT_KEYDAT, keycmd_wait); } /* カーソルの再表示 */ if (cursor_c >= 0) { boxfill8(sht_win->buf, sht_win->bxsize, cursor_c, cursor_x, 28, cursor_x + 7, 43); } sheet_refresh(sht_win, cursor_x, 28, cursor_x + 8, 44); } else if (512 <= i && i <= 767) { /* マウスデータ */ if (mouse_decode(&mdec, i - 512) != 0) { /* マウスカーソルの移動 */ mx += mdec.x; my += mdec.y; if (mx < 0) { mx = 0; } if (my < 0) { my = 0; } if (mx > binfo->scrnx - 1) { mx = binfo->scrnx - 1; } if (my > binfo->scrny - 1) { my = binfo->scrny - 1; } sheet_slide(sht_mouse, mx, my); if ((mdec.btn & 0x01) != 0) { /* 左ボタンを押していたら、sht_winを動かす */ sheet_slide(sht_win, mx - 80, my - 8); } } } else if (i <= 1) { /* カーソル用タイマ */ if (i != 0) { timer_init(timer, &fifo, 0); /* 次は0を */ if (cursor_c >= 0) { cursor_c = COL8_000000; } } else { timer_init(timer, &fifo, 1); /* 次は1を */ if (cursor_c >= 0) { cursor_c = COL8_FFFFFF; } } timer_settime(timer, 50); if (cursor_c >= 0) { boxfill8(sht_win->buf, sht_win->bxsize, cursor_c, cursor_x, 28, cursor_x + 7, 43); sheet_refresh(sht_win, cursor_x, 28, cursor_x + 8, 44); } } } } }
void HariMain(void) { /* **最初的这部分变量没有通过内存管理来分配,它们本身属于操作系统的一部分,存在于bootpack.hrb所在的那块儿内存空间中 */ BOOTINFO *binfo = (BOOTINFO *) ADR_BOOTINFO; MOUSE_DECODE mouse_dec; MEMMANAGE *memmanage = (MEMMANAGE *)MEMMANAGE_ADDR; LAYER_MANAGE *layer_manage; LAYER *layer_bg, *layer_mouse; FIFO fifo_mutual; //缓冲区管理,所有中断公用的 FIFO keycmd_fifo; TASK *task_a, *task_console[2], *task; //后面的那个task只是作为一个临时变量来用的 CONSOLE *console; int fifobuf[128], keycmd_buf[32], *console_fifo[2]; //缓冲区 int mCursorX, mCursorY; //鼠标光标显示位置的横纵坐标 int key_shift = 0, key_ctrl = 0, key_leds = (binfo->leds >> 4) & 7, keycmd_wait = -1; //标志键盘输入到哪个窗口中 int j, x, y, last_mcursorX = -1, last_mcursorY= -1, tmp_layerX = 0; //last_mcursorX这两个变量记录的是鼠标移动之前的坐标 int new_mcursorX = 0, new_mcursorY = 0, new_layerX = 0x7fffffff, new_layerY = 0; LAYER *layer = 0, *key_to_window; //key_to_window这个变量记录当前的键盘输入到哪个窗口中 unsigned int memory_total, i; char buf_cursor[mCursorWidth * mCursorHeight]; unsigned char *buf_bg, *buf_console[2]; //屏幕的大背景会在init_screen的时候画出来,这里只需要一个指向它的指针即可 unsigned char strings[40]; mCursorX = binfo->scrnx / 2; mCursorY = (binfo->scrny - 28)/ 2; //减去下方任务栏的高度 /*内存检查*/ i = memtest(0x00400000, 0xbfffffff) / (1024 * 1024); //i的单位是MB /*内存管理*/ memmanage_init(memmanage); memory_total = i * 1024 * 1024; memmanage_free_4K(memmanage, 0x00001000, 0x0009e000); memmanage_free_4K(memmanage, 0x00400000, memory_total - 0x00400000); init_fifo(&keycmd_fifo, 32, keycmd_buf, 0); /*初始化接收中断的缓冲区*/ init_fifo(&fifo_mutual, 128, fifobuf, 0); //初始化mouseFIFO缓冲区,现在还没任务,先指定为0 /*初始化GDT和IDT表以及PIC板的数据*/ init_GDTandIDT(); //初始化GDT和IDT表 init_pic(); //初始化PIC主从板数据,除了IRQ2禁止了全部中断 io_sti(); //开始接收中断 /*初始化PIT中断控制*/ init_PIT(); /*若要接收鼠标中断需要两个步骤,首先必须使鼠标控制电路(就是键盘控制电路的一部分)有效,然后要使鼠标本身有效*/ init_keyboard(&fifo_mutual, 256); //初始化键盘控制器电路 enable_mouse(&fifo_mutual, 512, &mouse_dec); //激活鼠标 /*开放各种中断*/ io_out8(PIC0_IMR, 0xf8); //PIC0开发IRQ(11111000),开放IRQ0、IRQ1和IRQ2,定时器、键盘中断和从PIC板 io_out8(PIC1_IMR, 0xef); //PIC1开放IRQ(11101111), 开放鼠标中断 /*初始化任务切换管理*/ task_a = task_init(memmanage); //这个task_a其实代表的就是这些鼠标键盘等的任务 fifo_mutual.task = task_a; //为鼠标键盘等的缓冲区指定唤醒任务为task_a task_run(task_a, 1, 2); /*初始化调色板,为图形界面做准备*/ init_palette(); //初始化调色板 /*初始化图层管理,并且初始化鼠标光标和背景的图层*/ layer_manage = layer_man_init(memmanage, binfo->vram, binfo->scrnx, binfo->scrny); *((int *) 0x0fe4) = (int) layer_manage; layer_bg = layer_alloc(layer_manage); //为背景分配图层 layer_mouse = layer_alloc(layer_manage); //为鼠标分配图层 buf_bg = (unsigned char *)memmanage_alloc_4K(memmanage, binfo->scrnx * binfo->scrny); //为背景图形的内容分配内存 /*为各个图形的图层内容进行设定*/ layer_set(layer_bg, buf_bg, binfo->scrnx, binfo->scrny, -1); layer_set(layer_mouse, buf_cursor, 16, 16 ,99); /*初始化整个桌面背景*/ init_screen(buf_bg, binfo->scrnx, binfo->scrny); //这个时候的init_screen不再是直接画出背景,而是在mBg内存地址中填写好背景内容 layer_slide(layer_bg, 0, 0); //把背景图层从(0,0)坐标开始画 /*初始化鼠标图标*/ init_mouse_cursor(buf_cursor, 99); //初始化鼠标光标 layer_slide(layer_mouse, mCursorX, mCursorY); //现在显示图形不需要再用displayShape函数了,直接用这个图层管理的绘图函数就行 /*执行两个命令行窗口任务*/ key_to_window = open_console(layer_manage, memory_total); //最初的时候由第一个console接收键盘输入 layer_slide(key_to_window, 8, 2); /*设置好各个图层的高度*/ layer_switch(layer_bg, 0); //把背景图层调为最底层,高度为0 layer_switch(key_to_window, 1); //命令行窗口图层调节为第三层,高度为2 layer_switch(layer_mouse, 2); //鼠标图层调为最高层,高度为3 keywindow_on(key_to_window); // fifo_put(&keycmd_fifo, KEYCMD_LED); fifo_put(&keycmd_fifo, key_leds); *((int *) 0x0fec) = (int) &fifo_mutual; for(;;) { if(fifo_status(&keycmd_fifo) > 0 && keycmd_wait < 0) { keycmd_wait = fifo_get(&keycmd_fifo); wait_KBC_sendready(); io_out8(PORT_KEYDATA, keycmd_wait); } /*只有在从中断返回的缓冲区中读取数据的时候才需要禁止中断,因为如果这个时候来了中断而没有禁止的话, **有可能读脏数据,即把还没有读出的数据的给抹掉或换成别的数据 */ io_cli(); if(0 == fifo_status(&fifo_mutual)) //当前没有中断产生 { //利用CPU空闲的时间来执行耗时的绘图工作(这样的话会造成反应很快的表象,但其实,如果中断很多,尤其是鼠标中断很多的时候, //会把之前记录下的new_mcursorX覆盖掉,而只绘制最新的图层坐标) if(new_mcursorX >= 0) { io_sti(); layer_slide(layer_mouse, new_mcursorX, new_mcursorY); new_mcursorX = -1; //绘制完鼠标之后,就把它的坐标设置为负数,反正鼠标不会出去屏幕,为负数的时候就说明不需要重绘鼠标 } //图层的横坐标为0x7fffffff的时候就不需要重绘了,这是作为一个标志的,它为其他值的时候就需要重绘了 else if(new_layerX != 0x7fffffff) { io_sti(); layer_slide(layer, new_layerX, new_layerY); new_layerX = 0x7fffffff; } //如果不需要重绘鼠标和图层的话,就没有什么工作可做了,进入休眠就可以了 else { task_sleep(task_a); //如果没有需要处理的数据,就自己让自己休眠 /*上面的那个函数直接就跳转到另一个任务中去了,不过,因为每个人物的默认eflags都是开启中断的, **所以不用担心,这个任务还是能被唤醒的,耳环醒后的第一个动作就是为了以防万一先开启中断 */ io_sti(); //万一只有自己在运行的话,则无法睡眠,那么就执行hlt指令好了,这样省电嘛 } } else { i = fifo_get(&fifo_mutual); io_sti(); //窗口被关闭的情况 if(0 != key_to_window && 0 == key_to_window->flags) { //如果当前画面上只剩下鼠标和背景的时候 if(1 == layer_manage->top) { key_to_window = 0; } else { key_to_window = layer_manage->layers_order[layer_manage->top - 1]; //当窗口被关闭的时候,自动切换成最上层的layer接收键盘输入 keywindow_on(key_to_window); } } //如果是键盘中断的话,需要处理键盘发送来的中断数据 if((keyboard_offset <= i) && (i <= keyboard_offset + 255)) { //判断shift键是否按下,然后使用不同的keytable表 if(i < 0x80 + keyboard_offset) { if(0 == key_shift) { strings[0] = key_table[i - keyboard_offset]; } else { strings[0] = key_table_shift[i - keyboard_offset]; } } else { strings[0] = 0; } //判断Caps和Shift键的情况以确定输入大写还是小写字母 if('A' <= strings[0] && strings[0] <= 'Z') { //小写字母的情况 if((0 == (key_leds & 4) && 0 == key_shift) || (0 != (key_leds & 4) && 0 != key_shift)) { strings[0] += 0x20; } } //判断按下的字符是否为一般字符,0对应的字符不处理,对退格键和回车键加上了对应字符,他们对应的table表里的元素不再是0 if(strings[0] != 0 && key_to_window != 0) { fifo_put(&key_to_window->task->fifo, strings[0] + 256); } //如果按下了ctrl+d,就打开一个console if(('D' == strings[0] || 'd' == strings[0]) && (0 != key_ctrl)) { if(key_to_window != 0) { keywindow_off(key_to_window); } key_to_window = open_console(layer_manage, memory_total); layer_slide(key_to_window, 300, 2); layer_switch(key_to_window, layer_manage->top); //自动把键盘输入切换到这个新打开的console中 keywindow_on(key_to_window); } //如果同时按下了ctrl+x,那么就关闭应用程序 if(('X' == strings[0] || 'x' == strings[0]) && (0 != key_ctrl) && key_to_window != 0) { task = key_to_window->task; //找到当前接收键盘输入的(即最前面的)图层所对应的任务 if(0 != task && task->tss.ss0 != 0) { console_putstring_toend(task->console, "\nTerminate program! :\n"); io_cli(); //让CPU直接跳转到console中执行,不再管应用程序,也就是所谓的停止应用程序继续运行 task->tss.eax = (int) &(task->tss.esp0); task->tss.eip = (int) asm_end_app; io_sti(); } } /*这些都是那些不能打印的特殊按键,它们对应的都是0*/ //按下“TAB键”的处理情况,切换输入窗口 if(i == keyboard_offset + 0x0f && key_to_window != 0) { //先让当前的窗口的光标OFF掉 keywindow_off(key_to_window); j = key_to_window->height - 1; if(0 == j) { //如果切换之后的图层是最底层的操作系统的图层,那么就切换成最上层的图层 j = layer_manage->top - 1; } key_to_window = layer_manage->layers_order[j]; //使切换到的窗口的光标ON keywindow_on(key_to_window); } //左或右Ctrl ON if(0x1d + keyboard_offset == i) { key_ctrl = 1; } //左或右Ctrl OFF if(0x9d + keyboard_offset == i) { key_ctrl = 0; } //左shift ON if(0x2a + keyboard_offset == i) { key_shift |= 1; } //右shift ON if(0x36 + keyboard_offset == i) { key_shift |= 2; } //左shift OFF if(0xaa + keyboard_offset == i) { key_shift &= ~1; } //左shift OFF if(0xb6 + keyboard_offset == i) { key_shift &= ~2; } /*对各种锁定键的处理*/ //CapsLock键 if(i == keyboard_offset + 0x3a) { key_leds ^= 4; fifo_put(&keycmd_fifo, KEYCMD_LED); fifo_put(&keycmd_fifo, key_leds); } //NumLock键 if(i == keyboard_offset + 0x45) { key_leds ^= 2; fifo_put(&keycmd_fifo, KEYCMD_LED); fifo_put(&keycmd_fifo, key_leds); } //ScrollLock键 if(i == keyboard_offset + 0x46) { key_leds ^= 1; fifo_put(&keycmd_fifo, KEYCMD_LED); fifo_put(&keycmd_fifo, key_leds); } //键盘成功接收到数据 if(i == keyboard_offset + 0xfa) { keycmd_wait = -1; } //键盘没有成功接收到数据 if(i == keyboard_offset + 0xfe) { wait_KBC_sendready(); io_out8(PORT_KEYDATA, keycmd_wait); } } //如果是鼠标中断的话,需要处理鼠标发送来的中断数据 else if((mouse_offset <= i) && (i <= mouse_offset + 255)) { if(0 != mouse_decode(&mouse_dec, i - mouse_offset)) //只有返回值为1的时候才说明成功接收完成一次鼠标的中断 { /*鼠标的移动*/ //根据mouse_dec里存储的鼠标信息画出新的鼠标图像 mCursorX += mouse_dec.x; mCursorY += mouse_dec.y; //不能让鼠标移出画面 if(mCursorX < 0) { mCursorX = 0; } if(mCursorY < 0) { mCursorY = 0; } if(mCursorX > binfo->scrnx - 1) { mCursorX = binfo->scrnx - 1; } if(mCursorY > binfo->scrny - 1) { mCursorY = binfo->scrny - 1; } //记录下鼠标光标的移动到的位置,等待fifo中为空的时候开始绘图 new_mcursorX = mCursorX; new_mcursorY = mCursorY; //按下了左键 if(0 != (mouse_dec.btn & 0x01)) { //如果last_mcursorX小于0,说明当前不是处于窗口移动模式,那么就需要检查现在鼠标按下左键之后有没有落在某个图层的标题栏上 if(last_mcursorX < 0) { for(j = layer_manage->top - 1; j > 0; j--) { layer = layer_manage->layers_order[j]; //计算一下鼠标的坐标在不在这个图层里面 x = mCursorX - layer->x; y = mCursorY - layer->y; if(0 <= x && x < layer->length && 0 <= y && y <= layer->width) { //鼠标所在区域也不能是涂层的透明区域 if(layer->buffer[y * layer->length + x] != layer->color_luc) { layer_switch(layer, layer_manage->top - 1); //如果当前的layer不是接收键盘输入的图层(即最前面的图层),那么就需要切换 if(layer != key_to_window) { //鼠标左击窗口所做的事情跟按下TAB键的事情差不多 keywindow_off(key_to_window); key_to_window = layer; keywindow_on(key_to_window); } //查看鼠标当前点击的区域是不是窗口的标题栏,并且不能是关闭按钮所在的区域 if(3 <= x && x < layer->length - 21 && 3 <= y && y <= 21) { last_mcursorX = mCursorX; last_mcursorY = mCursorY; tmp_layerX = layer->x; //这个tmp_layerX只是个要绘制的图层横坐标的过渡部分,真正的坐标还需要处理 new_layerY = layer->y; } //这个是鼠标点击到关闭按钮的情况 if(layer->length - 21 <= x && x <= layer->length - 5 && 5 <= y && y <= 19) { //查看该窗口是否为应用程序的窗口,如果是应用程序产生的窗口而不是console的那个黑窗口,那么这个窗口的flags有0x10 if(0 != (layer->flags & 0x10)) { //这部分处理跟按下ctrl+x的处理基本一样 task = layer->task; console_putstring_toend(task->console, "Break by mouse!\n"); io_cli(); task->tss.eax = (int)&(task->tss.esp0); task->tss.eip = (int)asm_end_app; io_sti(); } //不是应用程序的话就是console命令行窗口产生的layer else { //不能再这里的task_a中直接关闭,因为还有些console自身管理的定时器和fat等东西无法释放了 task = layer->task; io_cli(); fifo_put(&task->fifo, 4); io_sti(); } } break; } } } } //只要last_mcursorX大于0,说明当前处于窗口移动模式,说明当前鼠标正点击着某个图层的标题栏呢 else { x = mCursorX - last_mcursorX; y = mCursorY - last_mcursorY; new_layerX = (tmp_layerX + x + 2) & ~3; new_layerY = new_layerY + y; last_mcursorY = mCursorY; //更新到移动后的坐标 } } //如果当前没有按下左键,就把last_mcursorX设置为负数,作为当前不处于窗口移动的依据 else { last_mcursorX = -1; if(0x7fffffff != new_layerX) { layer_slide(layer, new_layerX, new_layerY); //一旦鼠标不点击这窗口移动了,就立即最后一次绘制窗口并且停止窗口的移动 new_layerX = 0x7fffffff; } } } } //收到这个之间的数据,说明是让关闭console的 else if(768 <= i && i <= 1023) { close_console(layer_manage->layers + (i - 768)); } } } }
void HariMain(void) { struct BOOTINFO *binfo = (struct BOOTINFO *) ADR_BOOTINFO; struct SHTCTL *shtctl; char s[40]; struct FIFO32 fifo, keycmd; int fifobuf[128], keycmd_buf[32]; int mx, my, i, new_mx = -1, new_my = 0, new_wx = 0x7fffffff, new_wy = 0; unsigned int memtotal; struct MOUSE_DEC mdec; struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR; unsigned char *buf_back, buf_mouse[256]; struct SHEET *sht_back, *sht_mouse; struct TASK *task_a, *task; static char keytable0[0x80] = { 0, 0, '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', '-', '^', 0x08, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '@', '[', 0x0a, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', ';', ':', 0, 0, ']', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', ',', '.', '/', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0 }; static char keytable1[0x80] = { 0, 0, '!', 0x22, '#', '$', '%', '&', 0x27, '(', ')', '~', '=', '~', 0x08, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '`', '{', 0x0a, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', '+', '*', 0, 0, '}', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', '<', '>', '?', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '_', 0, 0, 0, 0, 0, 0, 0, 0, 0, '|', 0, 0 }; int key_shift = 0, key_leds = (binfo->leds >> 4) & 7, keycmd_wait = -1; int j, x, y, mmx = -1, mmy = -1, mmx2 = 0; struct SHEET *sht = 0, *key_win; init_gdtidt(); init_pic(); io_sti(); /* IDT/PICの初期化が終わったのでCPUの割り込み禁止を解除 */ fifo32_init(&fifo, 128, fifobuf, 0); *((int *) 0x0fec) = (int) &fifo; init_pit(); init_keyboard(&fifo, 256); enable_mouse(&fifo, 512, &mdec); io_out8(PIC0_IMR, 0xf8); /* PITとPIC1とキーボードを許可(11111000) */ io_out8(PIC1_IMR, 0xef); /* マウスを許可(11101111) */ fifo32_init(&keycmd, 32, keycmd_buf, 0); memtotal = memtest(0x00400000, 0xbfffffff); memman_init(memman); memman_free(memman, 0x00001000, 0x0009e000); /* 0x00001000 - 0x0009efff */ memman_free(memman, 0x00400000, memtotal - 0x00400000); init_palette(); shtctl = shtctl_init(memman, binfo->vram, binfo->scrnx, binfo->scrny); task_a = task_init(memman); fifo.task = task_a; task_run(task_a, 1, 2); *((int *) 0x0fe4) = (int) shtctl; /* sht_back */ sht_back = sheet_alloc(shtctl); buf_back = (unsigned char *) memman_alloc_4k(memman, binfo->scrnx * binfo->scrny); sheet_setbuf(sht_back, buf_back, binfo->scrnx, binfo->scrny, -1); /* 透明色なし */ init_screen8(buf_back, binfo->scrnx, binfo->scrny); /* sht_cons */ key_win = open_console(shtctl, memtotal); /* sht_mouse */ sht_mouse = sheet_alloc(shtctl); sheet_setbuf(sht_mouse, buf_mouse, 16, 16, 99); init_mouse_cursor8(buf_mouse, 99); mx = (binfo->scrnx - 16) / 2; /* 画面中央になるように座標計算 */ my = (binfo->scrny - 28 - 16) / 2; sheet_slide(sht_back, 0, 0); sheet_slide(key_win, 32, 4); sheet_slide(sht_mouse, mx, my); sheet_updown(sht_back, 0); sheet_updown(key_win, 1); sheet_updown(sht_mouse, 2); keywin_on(key_win); /* 最初にキーボード状態との食い違いがないように、設定しておくことにする */ fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); for (;;) { if (fifo32_status(&keycmd) > 0 && keycmd_wait < 0) { /* キーボードコントローラに送るデータがあれば、送る */ keycmd_wait = fifo32_get(&keycmd); wait_KBC_sendready(); io_out8(PORT_KEYDAT, keycmd_wait); } io_cli(); if (fifo32_status(&fifo) == 0) { /* FIFOがからっぽになったので、保留している描画があれば実行する */ if (new_mx >= 0) { io_sti(); sheet_slide(sht_mouse, new_mx, new_my); new_mx = -1; } else if (new_wx != 0x7fffffff) { io_sti(); sheet_slide(sht, new_wx, new_wy); new_wx = 0x7fffffff; } else { task_sleep(task_a); io_sti(); } } else { i = fifo32_get(&fifo); io_sti(); if (key_win != 0 && key_win->flags == 0) { /* ウィンドウが閉じられた */ if (shtctl->top == 1) { /* もうマウスと背景しかない */ key_win = 0; } else { key_win = shtctl->sheets[shtctl->top - 1]; keywin_on(key_win); } } if (256 <= i && i <= 511) { /* キーボードデータ */ if (i < 0x80 + 256) { /* キーコードを文字コードに変換 */ if (key_shift == 0) { s[0] = keytable0[i - 256]; } else { s[0] = keytable1[i - 256]; } } else { s[0] = 0; } if ('A' <= s[0] && s[0] <= 'Z') { /* 入力文字がアルファベット */ if (((key_leds & 4) == 0 && key_shift == 0) || ((key_leds & 4) != 0 && key_shift != 0)) { s[0] += 0x20; /* 大文字を小文字に変換 */ } } if (s[0] != 0 && key_win != 0) { /* 通常文字、バックスペース、Enter */ fifo32_put(&key_win->task->fifo, s[0] + 256); } if (i == 256 + 0x0f && key_win != 0) { /* Tab */ keywin_off(key_win); j = key_win->height - 1; if (j == 0) { j = shtctl->top - 1; } key_win = shtctl->sheets[j]; keywin_on(key_win); } if (i == 256 + 0x2a) { /* 左シフト ON */ key_shift |= 1; } if (i == 256 + 0x36) { /* 右シフト ON */ key_shift |= 2; } if (i == 256 + 0xaa) { /* 左シフト OFF */ key_shift &= ~1; } if (i == 256 + 0xb6) { /* 右シフト OFF */ key_shift &= ~2; } if (i == 256 + 0x3a) { /* CapsLock */ key_leds ^= 4; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x45) { /* NumLock */ key_leds ^= 2; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x46) { /* ScrollLock */ key_leds ^= 1; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x3b && key_shift != 0 && key_win != 0) { /* Shift+F1 */ task = key_win->task; if (task != 0 && task->tss.ss0 != 0) { cons_putstr0(task->cons, "\nBreak(key) :\n"); io_cli(); /* 強制終了処理中にタスクが変わると困るから */ task->tss.eax = (int) &(task->tss.esp0); task->tss.eip = (int) asm_end_app; io_sti(); } } if (i == 256 + 0x3c && key_shift != 0) { /* Shift+F2 */ /* 新しく作ったコンソールを入力選択状態にする(そのほうが親切だよね?) */ if (key_win != 0) { keywin_off(key_win); } key_win = open_console(shtctl, memtotal); sheet_slide(key_win, 32, 4); sheet_updown(key_win, shtctl->top); keywin_on(key_win); } if (i == 256 + 0x57) { /* F11 */ sheet_updown(shtctl->sheets[1], shtctl->top - 1); } if (i == 256 + 0xfa) { /* キーボードがデータを無事に受け取った */ keycmd_wait = -1; } if (i == 256 + 0xfe) { /* キーボードがデータを無事に受け取れなかった */ wait_KBC_sendready(); io_out8(PORT_KEYDAT, keycmd_wait); } } else if (512 <= i && i <= 767) { /* マウスデータ */ if (mouse_decode(&mdec, i - 512) != 0) { /* マウスカーソルの移動 */ mx += mdec.x; my += mdec.y; if (mx < 0) { mx = 0; } if (my < 0) { my = 0; } if (mx > binfo->scrnx - 1) { mx = binfo->scrnx - 1; } if (my > binfo->scrny - 1) { my = binfo->scrny - 1; } new_mx = mx; new_my = my; if ((mdec.btn & 0x01) != 0) { /* 左ボタンを押している */ if (mmx < 0) { /* 通常モードの場合 */ /* 上の下じきから順番にマウスが指している下じきを探す */ for (j = shtctl->top - 1; j > 0; j--) { sht = shtctl->sheets[j]; x = mx - sht->vx0; y = my - sht->vy0; if (0 <= x && x < sht->bxsize && 0 <= y && y < sht->bysize) { if (sht->buf[y * sht->bxsize + x] != sht->col_inv) { sheet_updown(sht, shtctl->top - 1); if (sht != key_win) { keywin_off(key_win); key_win = sht; keywin_on(key_win); } if (3 <= x && x < sht->bxsize - 3 && 3 <= y && y < 21) { mmx = mx; /* ウィンドウ移動モードへ */ mmy = my; mmx2 = sht->vx0; new_wy = sht->vy0; } if (sht->bxsize - 21 <= x && x < sht->bxsize - 5 && 5 <= y && y < 19) { /* 「×」ボタンクリック */ if ((sht->flags & 0x10) != 0) { /* アプリが作ったウィンドウか? */ task = sht->task; cons_putstr0(task->cons, "\nBreak(mouse) :\n"); io_cli(); /* 強制終了処理中にタスクが変わると困るから */ task->tss.eax = (int) &(task->tss.esp0); task->tss.eip = (int) asm_end_app; io_sti(); } } break; } } } } else { /* ウィンドウ移動モードの場合 */ x = mx - mmx; /* マウスの移動量を計算 */ y = my - mmy; new_wx = (mmx2 + x + 2) & ~3; new_wy = new_wy + y; mmy = my; /* 移動後の座標に更新 */ } } else { /* 左ボタンを押していない */ mmx = -1; /* 通常モードへ */ if (new_wx != 0x7fffffff) { sheet_slide(sht, new_wx, new_wy); /* 一度確定させる */ new_wx = 0x7fffffff; } } } } else if (768 <= i && i <= 1023) { /* コンソール終了処理 */ close_console(shtctl->sheets0 + (i - 768)); } } } }
void HariMain(void) { int i; struct BOOTINFO *binfo = (struct BOOTINFO *)0x0ff0; int xsize = (*binfo).scrnx; int ysize = (*binfo).scrny; int mx = xsize/2; int my = ysize/2; int fifobuf[128], keycmd_buf[32]; struct MOUSE_DEC mdec; unsigned char s[32]; unsigned int memtotal; struct MEMMAN *memman = (struct MEMMAN *)MEMMAN_ADDR; int cursor_x, cursor_c; int key_to = 0, key_shift = 0, key_leds = (binfo->leds >> 4) & 7, keycmd_wait = -1; struct SHTCTL *shtctl; struct SHEET *sht_back, *sht_mouse, *sht_win, *sht_cons; unsigned char *buf_back, buf_mouse[256], *buf_win, *buf_cons; struct TIMER *timer; struct FIFO32 fifo, keycmd; struct CONSOLE *cons; struct TASK *task_a, *task_cons; static char keytable0[0x80] = { 0, 0, '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', '-', '^', 0, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '@', '[', 0, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', ';', ':', 0, 0, ']', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', ',', '.', '/', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0 }; static char keytable1[0x80] = { 0, 0, '!', 0x22, '#', '$', '%', '&', 0x27, '(', ')', '~', '=', '~', 0x08, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '`', '{', 0, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', '+', '*', 0, 0, '}', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', '<', '>', '?', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '_', 0, 0, 0, 0, 0, 0, 0, 0, 0, '|', 0, 0 }; init_gdtidt (); init_pic (); io_sti (); fifo32_init(&fifo, 32, fifobuf, 0); fifo32_init(&keycmd, 32, keycmd_buf, 0); init_pit(); io_out8(PIC0_IMR, 0xf8); /* Allow PIT and Keyboard (11111000) */ io_out8(PIC1_IMR, 0xef); /* Allow Mouse (11101111) */ init_keyboard (&fifo, 256); enable_mouse (&fifo, 512, &mdec); timer = timer_alloc(); timer_init(timer, &fifo, 1); timer_settime(timer, 50); memtotal = memtest(0x00400000, 0xbfffffff); memman_init (memman); memman_free (memman, 0x00001000, 0x009e000); /* 0x00001000 - 0x0009efff */ memman_free (memman, 0x00400000, memtotal - 0x00400000); init_pallete(); shtctl = shtctl_init (memman, binfo->vram, binfo->scrnx, binfo->scrny); sht_back = sheet_alloc(shtctl); sht_mouse = sheet_alloc(shtctl); sht_win = sheet_alloc(shtctl); buf_back = (unsigned char *)memman_alloc_4k (memman, binfo->scrnx * binfo->scrny); buf_win = (unsigned char *)memman_alloc_4k (memman, 160 * 52); sheet_setbuf (sht_back, buf_back, binfo->scrnx, binfo->scrny, -1); sheet_setbuf (sht_mouse, buf_mouse, 16, 16, 99); sheet_setbuf (sht_win, buf_win, 160, 52, -1); init_screen (buf_back, xsize, ysize); init_mouse_cursor8 (buf_mouse, 99); make_window8(buf_win, 160, 52, "task_a", 1); // sprintf (s, "(%d, %d)", mx, my); // putfonts8_asc (buf_back, binfo->scrnx, 0, 0, COL8_FFFFFF, s); // sprintf (s, "Memory %dMB, free : %dKB", // memtotal / (1024 * 1024), memman_total(memman) / 1024); // putfonts8_asc(buf_back, binfo->scrnx, 0, 32, COL8_FFFFFF, s); make_textbox8 (sht_win, 8, 28, 144, 16, COL8_FFFFFF); cursor_x = 8; cursor_c = COL8_FFFFFF; //===================== // Task Settings //===================== task_a = task_init(memman); fifo.task = task_a; task_run (task_a, 1, 0); /* console sheet */ sht_cons = sheet_alloc(shtctl); buf_cons = (unsigned char *)memman_alloc_4k(memman, 256 * 165); sheet_setbuf (sht_cons, buf_cons, 256, 165, -1); make_window8 (buf_cons, 256, 165, "console", 0); make_textbox8 (sht_cons, 8, 28, 240, 128, COL8_000000); task_cons = task_alloc (); task_cons->tss.esp = memman_alloc_4k (memman, 64 * 1024) + 64 * 1024 - 12; task_cons->tss.eip = (int)&console_task; task_cons->tss.es = 1 * 8; task_cons->tss.cs = 2 * 8; task_cons->tss.ss = 1 * 8; task_cons->tss.ds = 1 * 8; task_cons->tss.fs = 1 * 8; task_cons->tss.gs = 1 * 8; *((int *) (task_cons->tss.esp + 4)) = (int) sht_cons; *((int *) (task_cons->tss.esp + 8)) = (int) memtotal; task_run (task_cons, 1, 0); /* level = 2, priority = 2 */ //======================= // Sheet Setting //======================= sheet_slide (sht_back, 0, 0); sheet_slide (sht_mouse, mx, my); sheet_slide (sht_cons, 32, 4); sheet_slide (sht_win, 64, 56); sheet_updown (sht_back, 0); sheet_updown (sht_cons, 1); sheet_updown (sht_win, 2); sheet_updown (sht_mouse, 3); sheet_refresh (sht_back, 0, 0, binfo->scrnx, 48); fifo32_put (&keycmd, KEYCMD_LED); fifo32_put (&keycmd, key_leds); for (;;) { if (fifo32_status(&keycmd) > 0 && keycmd_wait < 0) { keycmd_wait = fifo32_get(&keycmd); wait_KBC_sendready (); io_out8(PORT_KEYDAT, keycmd_wait); } io_cli(); if (fifo32_status(&fifo) == 0) { task_sleep(task_a); io_sti(); } else { i = fifo32_get(&fifo); io_sti(); if (256 <= i && i <= 511) { // Keyboard Data // sprintf (s, "%x", i - 256); // putfonts8_asc_sht (sht_back, 0, 16, COL8_FFFFFF, COL8_008484, s, 2); if (i < 0x80 + 256) { if (key_shift == 0) { s[0] = keytable0[i - 256]; } else { s[0] = keytable1[i - 256]; } } else { s[0] = 0; } if ('A' <= s[0] && s[0] <= 'Z') { if (((key_leds & 4) == 0 && key_shift == 0) || ((key_leds & 4) != 0 && key_shift != 0)) { s[0] += 0x20; } } if (s[0] != 0) { if (key_to == 0) { if (cursor_x < 128) { s[1] = 0; putfonts8_asc_sht (sht_win, cursor_x, 28, COL8_000000, COL8_FFFFFF, s, 1); cursor_x += 8; } } else { // To Console fifo32_put (&task_cons->fifo, s[0] + 256); } } if (i == 256 + 0x0e) { // Backspace if (key_to == 0) { // To Task-A if (cursor_x > 8) { putfonts8_asc_sht(sht_win, cursor_x, 28, COL8_000000, COL8_FFFFFF, " ", 1); cursor_x -= 8; } } else { fifo32_put(&task_cons->fifo, 8 + 256); } } if (i == 256 + 0x0f) { // Tab if (key_to == 0) { key_to = 1; make_wtitle8 (buf_win, sht_win->bxsize, "task_a", 0); make_wtitle8 (buf_cons, sht_cons->bxsize, "console", 1); cursor_c = -1; // Delete cursor boxfill8 (sht_win->buf, sht_win->bxsize, COL8_FFFFFF, cursor_x, 28, cursor_x + 7, 43); fifo32_put (&task_cons->fifo, 2); // cursor ON console } else { key_to = 0; make_wtitle8 (buf_win, sht_win->bxsize, "task_a", 1); make_wtitle8 (buf_cons, sht_cons->bxsize, "console", 0); cursor_c = COL8_000000; // Delete cursor fifo32_put (&task_cons->fifo, 3); // cursor OFF console } sheet_refresh (sht_win, 0, 0, sht_win->bxsize, 21); sheet_refresh (sht_cons, 0, 0, sht_cons->bxsize, 21); } if (i == 256 + 0x1c) { if (key_to != 0) { fifo32_put (&task_cons->fifo, 10 + 256); } } if (i == 256 + 0x2a) { // Left Shift ON key_shift |= 1; } if (i == 256 + 0x36) { // Right Shift ON key_shift |= 2; } if (i == 256 + 0xaa) { // Left Shift OFF key_shift &= ~1; } if (i == 256 + 0xb6) { // Right Shift ON key_shift &= ~2; } if (i == 256 + 0x3a) { // CapsLock key_leds ^= 4; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x45) { // NumLock key_leds ^= 2; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x45) { // ScrollLock key_leds ^= 1; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0xfa) { // KeyBoard receive Data keycmd_wait = -1; } if (i == 256 + 0xfe) { // KeyBoard failed to receive Data wait_KBC_sendready (); io_out8(PORT_KEYDAT, keycmd_wait); } if (i == 256 + 0x3b && key_shift != 0 && task_cons->tss.ss0 != 0) { /* Shift+F1 */ cons = (struct CONSOLE *) *((int *) 0x0fec); cons_putstr0 (cons, "\nBreak(key) : \n"); io_cli (); task_cons->tss.eax = (int) &(task_cons->tss.esp0); task_cons->tss.eip = (int) asm_end_app; io_sti (); } // Redraw cursor if (cursor_c >= 0) { boxfill8 (sht_win->buf, sht_win->bxsize, cursor_c, cursor_x, 28, cursor_x + 7, 43); } sheet_refresh(sht_win, cursor_x, 28, cursor_x + 8, 44); } else if (512 <= i && i <= 767) { // Mouse Data if (mouse_decode(&mdec, i-512) != 0) { // sprintf (s, "[lcr %d %d]", mdec.x, mdec.y); // if ((mdec.btn & 0x01) != 0) { s[1] = 'L'; } // if ((mdec.btn & 0x02) != 0) { s[3] = 'R'; } // if ((mdec.btn & 0x04) != 0) { s[2] = 'C'; } // putfonts8_asc_sht (sht_back, 32, 16, COL8_FFFFFF, COL8_008484, s, 15); mx += mdec.x; my += mdec.y; if (mx < 0) { mx = 0; } if (mx > binfo->scrnx - 1) { mx = binfo->scrnx - 1; } if (my < 0) { my = 0; } if (my > binfo->scrny - 1) { my = binfo->scrny - 1; } // sprintf(s, "(%d, %d)", mx, my); // putfonts8_asc_sht (sht_back, 0, 0, COL8_FFFFFF, COL8_008484, s, 10); sheet_slide (sht_mouse, mx, my); if ((mdec.btn & 0x01) != 0) { sheet_slide (sht_win, mx - 80, my - 8); } } } else if (i <= 1) { if (i != 0) { timer_init(timer, &fifo, 0); if (cursor_c >= 0) { cursor_c = COL8_000000; } } else { timer_init(timer, &fifo, 1); if (cursor_c >= 0) { cursor_c = COL8_FFFFFF; } } timer_settime(timer, 50); if (cursor_c >= 0) { boxfill8 (sht_win->buf, sht_win->bxsize, cursor_c, cursor_x, 28, cursor_x + 7, 43); sheet_refresh(sht_win, cursor_x, 28, cursor_x + 8, 44); } } } } }
void HariMain(void) { struct BOOTINFO *binfo = (struct BOOTINFO *) ADR_BOOTINFO; struct FIFO32 fifo, keycmd; char s[40]; int fifobuf[128], keycmd_buf[32]; struct TIMER *timer; int mx, my, i, cursor_x, cursor_c; unsigned int memtotal; struct MOUSE_DEC mdec; struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR; struct SHTCTL *shtctl; struct SHEET *sht_back, *sht_mouse, *sht_win, *sht_cons; unsigned char *buf_back, buf_mouse[256], *buf_win, *buf_cons; struct TASK *task_a, *task_cons; int key_to = 0, key_shift = 0, key_leds = (binfo->leds >> 4) & 7, keycmd_wait = -1;; static char keytable0[0x80] = { 0, 0, '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', '-', '=', 0, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '[', ']', 0, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', ';', '\'','`', 0, '\\','Z', 'X', 'C', 'V', 'B', 'N', 'M', ',', '.', '/', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0 }; static char keytable1[0x80] = { 0, 0, '!', '@', '#', '$', '%', '^', '&', '*', '(', ')', '_', '+', 0, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '{', '}', 0, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', ':', '"', '~', 0, '|', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', '<', '>', '?', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '_', 0, 0, 0, 0, 0, 0, 0, 0, 0, '|', 0, 0 }; init_gdtidt(); init_pic(); io_sti(); fifo32_init(&fifo, 128, fifobuf, 0); fifo32_init(&keycmd, 32, keycmd_buf, 0); init_pit(); init_keyboard(&fifo, 256); enable_mouse(&fifo, 512, &mdec); io_out8(PIC0_IMR, 0xf8); io_out8(PIC1_IMR, 0xef); memtotal = memtest(0x00400000, 0xbfffffff); memman_init(memman); memman_free(memman, 0x00001000, 0x0009e00); memman_free(memman, 0x00400000, memtotal - 0x00400000); init_palette(); shtctl = shtctl_init(memman, binfo->vram, binfo->scrnx, binfo->scrny); task_a = task_init(memman); fifo.task = task_a; task_run(task_a, 1, 0); /* sht_back */ sht_back = sheet_alloc(shtctl); buf_back = (unsigned char *) memman_alloc_4k(memman, binfo->scrnx * binfo->scrny); sheet_setbuf(sht_back, buf_back, binfo->scrnx, binfo->scrny, -1); init_screen8(buf_back, binfo->scrnx, binfo->scrny); /* sht_cons */ sht_cons = sheet_alloc(shtctl); buf_cons = (unsigned char *) memman_alloc_4k(memman, 256 * 165); sheet_setbuf(sht_cons, buf_cons, 256, 165, -1); make_window8(buf_cons, 256, 165, "console", 0); make_textbox8(sht_cons, 8, 28, 240, 128, COL8_000000); task_cons = task_alloc(); task_cons->tss.esp = memman_alloc_4k(memman, 64 * 1024) + 64 * 1024 - 12; task_cons->tss.eip = (int) &console_task; task_cons->tss.es = 1 * 8; task_cons->tss.cs = 2 * 8; task_cons->tss.ss = 1 * 8; task_cons->tss.ds = 1 * 8; task_cons->tss.fs = 1 * 8; task_cons->tss.gs = 1 * 8; *((int *) (task_cons->tss.esp + 4)) = (int) sht_cons; *((int *) (task_cons->tss.esp + 8)) = memtotal; task_run(task_cons, 2, 2); /* level=2, priority=2 */ /* sht_win */ sht_win = sheet_alloc(shtctl); buf_win = (unsigned char *) memman_alloc_4k(memman, 160*52); sheet_setbuf(sht_win, buf_win, 144, 52, -1); make_window8(buf_win, 144, 52, "task_a", 1); make_textbox8(sht_win, 8, 28, 128, 16, COL8_FFFFFF); cursor_x = 8; cursor_c = COL8_FFFFFF; timer = timer_alloc(); timer_init(timer, &fifo, 1); timer_settime(timer, 50); /* sht_mouse */ sht_mouse = sheet_alloc(shtctl); sheet_setbuf(sht_mouse, buf_mouse, 16, 16, 99); init_mouse_cursor8(buf_mouse, 99); mx = (binfo->scrnx - 16) / 2; my = (binfo->scrny - 28 - 16) / 2; sheet_slide(sht_back, 0, 0); sheet_slide(sht_cons, 32, 4); sheet_slide(sht_win, 64, 56); sheet_slide(sht_mouse, mx, my); sheet_updown(sht_back, 0); sheet_updown(sht_cons, 1); sheet_updown(sht_win, 2); sheet_updown(sht_mouse, 3); /* 为了避免和键盘当前状态冲突 在一开始先进行设置 */ fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); for(;;) { if (fifo32_status(&keycmd) > 0 && keycmd_wait < 0) { /* 如果存在向键盘控制器发送的数据 则发送 */ keycmd_wait = fifo32_get(&keycmd); wait_KBC_sendready(); io_out8(PORT_KEYDAT, keycmd_wait); } io_cli(); if (fifo32_status(&fifo) == 0) { task_sleep(task_a); io_sti(); } else { i = fifo32_get(&fifo); io_sti(); if (256 <= i && i <= 511) { /* 键盘数据 */ if (i < 0x80 + 256) { /* 将按键编码转换为字符编码 */ if (key_shift == 0) { s[0] = keytable0[i - 256]; } else { s[0] = keytable1[i - 256]; } } else { s[0] = 0; } if ('A' <= s[0] && s[0] <= 'Z') { /* 当输入字母为英文字母时 */ if (((key_leds & 4) == 0 && key_shift == 0) || ((key_leds & 4) != 0 && key_shift != 0)) { s[0] += 0x20; } } if (s[0] != 0) {/* 一般字符 */ if (key_to == 0) { /* 发送给任务A */ if (cursor_x < 128) { /* 显示1个字符就后移1次光标 */ s[1] = 0; putfonts8_asc_sht(sht_win, cursor_x, 28, COL8_000000, COL8_FFFFFF, s, 1); cursor_x += 8; } } else { /* 发给命令行窗口 */ fifo32_put(&task_cons->fifo, s[0] + 256); } } if (i == 256 + 0x0e) { /* 退格键 */ if (key_to == 0) { /* 发送给任务A */ if (cursor_x > 8) { /* 用空白擦除光标后将光标前移一位 */ putfonts8_asc_sht(sht_win, cursor_x, 28, COL8_000000, COL8_FFFFFF, " ", 1); cursor_x -= 8; } } else { /* 发给命令行窗口 */ fifo32_put(&task_cons->fifo, 8 + 256); } } if (i == 256 + 0x0f) { /* Tab */ if (key_to == 0) { key_to = 1; make_wtitle8(buf_win, sht_win->bxsize, "task_a", 0); make_wtitle8(buf_cons, sht_cons->bxsize, "console", 1); cursor_c = -1; /* 不显示光标 */ boxfill8(sht_win->buf, sht_win->bxsize, COL8_FFFFFF, cursor_x, 28, cursor_x + 7, 43); fifo32_put(&task_cons->fifo, 2); /* 命令行窗口光标ON */ } else { key_to = 0; make_wtitle8(buf_win, sht_win->bxsize, "task_a", 1); make_wtitle8(buf_cons, sht_cons->bxsize, "console", 0); cursor_c = COL8_000000; /* 显示光标 */ fifo32_put(&task_cons->fifo, 3); /* 命令行窗口OFF */ } sheet_refresh(sht_win, 0, 0, sht_win->bxsize, 21); sheet_refresh(sht_cons, 0, 0, sht_cons->bxsize, 21); } if (i == 256 + 0x1c) { /* Enter */ if (key_to != 0) { /* 发送至命令行窗口 */ fifo32_put(&task_cons->fifo, 10 + 256); } } if (i == 256 + 0x2a) { /* 左Shift ON */ key_shift |= 1; } if (i == 256 + 0x36) { /* 右Shift ON */ key_shift |= 2; } if (i == 256 + 0xaa) { /* 左Shift OFF */ key_shift &= ~1; } if (i == 256 + 0xb6) { /* 右Shift OFF */ key_shift &= ~2; } if (i == 256 + 0x3a) { /* CapsLock */ key_leds ^= 4; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x45) { /* NumLock */ key_leds ^= 2; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x46) { /* ScrollLock */ key_leds ^= 1; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0xfa) { /* 键盘成功接受到数据 */ keycmd_wait = -1; } if (i == 256 + 0xfe) { /* 键盘没有成功接收到数据 */ wait_KBC_sendready(); io_out8(PORT_KEYDAT, keycmd_wait); } /* 光标再显示 */ if (cursor_c >= 0) { boxfill8(sht_win->buf, sht_win->bxsize, cursor_c, cursor_x, 28, cursor_x + 7, 43); } sheet_refresh(sht_win, cursor_x, 28, cursor_x + 8, 44); } else if (512 <= i && i <= 767) { /* 鼠标数据 */ if (mouse_decode(&mdec, i - 512) != 0) { /* 鼠标指针的移动 */ mx += mdec.x / 100; my += mdec.y / 100; if (mx < 0) { mx = 0; } if (my < 0) { my = 0; } if (mx > binfo->scrnx - 1) { mx = binfo->scrnx - 1; } if (my > binfo->scrny - 1) { my = binfo->scrny - 1; } sheet_slide(sht_mouse, mx, my); if ((mdec.btn & 0x01) != 0) { /* 按下左键 移动sht_win */ sheet_slide(sht_win, mx - 80, my - 8); } } } else if (i <= 1) { /* 光标用定时器 */ if (i != 0) { timer_init(timer, &fifo, 0); if (cursor_c >= 0) { cursor_c = COL8_000000; } } else { timer_init(timer, &fifo, 1); if (cursor_c >= 0) { cursor_c = COL8_FFFFFF; } } timer_settime(timer, 50); if (cursor_c >= 0) { boxfill8(sht_win->buf, sht_win->bxsize, cursor_c, cursor_x, 28, cursor_x + 7, 43); sheet_refresh(sht_win, cursor_x, 28, cursor_x + 8, 44); } } } } }
void HariMain(void) { struct FIFO32 fifo, keycmd; int fifobuf[128], keycmd_buf[32]; struct MOUSE_DEC mdec; unsigned int memtotal; struct SHTCTL *shtctl; struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR; struct BOOTINFO *binfo = (struct BOOTINFO *) ADR_BOOTINFO; struct TASK *task_a, *task_cons; struct SHEET *sht_back, *sht_mouse, *sht_win, *sht_cons; unsigned char *buf_back, buf_mouse[256], *buf_win, *buf_cons; int cursor_x, cursor_c, mx, my, i; // cursor_x: 记录光标显示位置 struct TIMER *timer; char s[40]; static char keytable0[0x80] = { 0, 0, '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', '-', '=', 0, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '[', ']', 0, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', ';', '\'', '`', 0, '\\', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', ',', '.', '/', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0 }; static char keytable1[0x80] = { 0, 0, '!', '@', '#', '$', '%', '^', '&', '*', '(', ')', '_', '+', 0, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '{', '}', 0, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', ':', '"', '~', 0, '|', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', '<', '>', '?', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '_', 0, 0, 0, 0, 0, 0, 0, 0, 0, '|', 0, 0 }; int key_to = 0, key_shift = 0, key_leds = (binfo->leds >> 4) & 7, keycmd_wait = -1; // key_to为1时,console窗口有效 init_gdtidt(); init_pic(); io_sti(); /* IDT/PIC的初始化结束,开启CPU中断 */ fifo32_init(&fifo, 128, fifobuf, 0); init_pit(); init_keyboard(&fifo, 256); enable_mouse(&fifo, 512, &mdec); io_out8(PIC0_IMR, 0xf8); /* 许可PIC1和键盘(11111000) */ io_out8(PIC1_IMR, 0xef); /* 许可鼠标(11101111) */ fifo32_init(&keycmd, 32, keycmd_buf, 0); memtotal = memtest(0x00400000, 0xbfffffff); // 使用的内存空间,包含了0x00400000前已用的内存 memman_init(memman); memman_free(memman, 0x00001000, 0x0009e000); /* 0x00001000 - 0x0009efff */ memman_free(memman, 0x00400000, memtotal - 0x00400000); init_palette(); shtctl = shtctl_init(memman, binfo->vram, binfo->scrnx, binfo->scrny); task_a = task_init(memman); // 为什么没给tss.eip、tss.esp赋值?task_a什么都不干。 fifo.task = task_a; task_run(task_a, 1, 2); /* sht_back */ sht_back = sheet_alloc(shtctl); buf_back = (unsigned char *) memman_alloc_4k(memman, binfo->scrnx * binfo->scrny); sheet_setbuf(sht_back, buf_back, binfo->scrnx, binfo->scrny, -1); /* 没有透明色 */ init_screen8(buf_back, binfo->scrnx, binfo->scrny); /* sht_cons */ sht_cons = sheet_alloc(shtctl); buf_cons = (unsigned char *) memman_alloc_4k(memman, 256 * 165); sheet_setbuf(sht_cons, buf_cons, 256, 165, -1); /* 无透明色 */ make_window8(buf_cons, 256, 165, "console", 0); // act为1时,颜色不变;act为0时,标题栏变灰色。 make_textbox8(sht_cons, 8, 28, 240, 128, COL8_000000); task_cons = task_alloc(); task_cons->tss.esp = memman_alloc_4k(memman, 64 * 1024) + 64 * 1024 - 8; task_cons->tss.eip = (int) &console_task; task_cons->tss.es = 1 * 8; task_cons->tss.cs = 2 * 8; // 与bootpack.c相同的地址段,asmkfunc.nas中bootpack启动部分 task_cons->tss.ss = 1 * 8; task_cons->tss.ds = 1 * 8; task_cons->tss.fs = 1 * 8; task_cons->tss.gs = 1 * 8; *((int *) (task_cons->tss.esp + 4)) = (int) sht_cons; // 传参 task_run(task_cons, 2, 2); /* level=2, priority=2 */ /* sht_win */ sht_win = sheet_alloc(shtctl); buf_win = (unsigned char *) memman_alloc_4k(memman, 160 * 52); sheet_setbuf(sht_win, buf_win, 144, 52, -1); /* 没有透明色 */ make_window8(buf_win, 144, 52, "task_a", 1); // act为1时,颜色不变;act为0时,标题栏变灰色。 make_textbox8(sht_win, 8, 28, 128, 16, COL8_FFFFFF); cursor_x = 8; cursor_c = COL8_FFFFFF; timer = timer_alloc(); timer_init(timer, &fifo, 1); timer_settime(timer, 50); /* sht_mouse */ sht_mouse = sheet_alloc(shtctl); sheet_setbuf(sht_mouse, buf_mouse, 16, 16, 99); // 透明色号99 init_mouse_cursor8(buf_mouse, 99); mx = (binfo->scrnx - 16) / 2; my = (binfo->scrny - 28 - 16) / 2; sheet_slide(sht_back , 0, 0); sheet_slide(sht_cons , 32, 4); sheet_slide(sht_win , 64, 56); sheet_slide(sht_mouse, mx, my); sheet_updown(sht_back, 0); sheet_updown(sht_cons, 1); sheet_updown(sht_win , 2); sheet_updown(sht_mouse, 3); sprintf(s, "(%3d, %3d)", mx, my); putfonts8_asc_sht(sht_back, 0, 0, COL8_FFFFFF, COL8_008484, s, 10); sprintf(s, "memory %dMB free : %dKB", memtotal / (1024 * 1024), memman_total(memman) / 1024); putfonts8_asc_sht(sht_back, 0, 32, COL8_FFFFFF, COL8_008484, s, 40); /* 为了避免和键盘当前状态冲突,在一开始先进行设置 */ fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); for (;;) { if (fifo32_status(&keycmd) > 0 && keycmd_wait < 0) { /* 如果存在想键盘控制器发送的数据,则发送 */ keycmd_wait = fifo32_get(&keycmd); wait_KBC_sendready(); io_out8(PORT_KEYDAT, keycmd_wait); } io_cli(); if (fifo32_status(&fifo) == 0) { /* J char ss[10]; sprintf(ss, "%c", "J"); putfonts8_asc(binfo->vram, binfo->scrnx, 100, 100, COL8_FFFFFF, ss); */ task_sleep(task_a); io_sti(); } else { i = fifo32_get(&fifo); io_sti(); if (256 <= i && i <= 511) { /* 键盘数据 */ sprintf(s, "%02X", i - 256); putfonts8_asc_sht(sht_back, 0, 16, COL8_FFFFFF, COL8_008484, s, 2); if (i < 0x80 + 256) { /* 将按键编码转换为字符编码 */ if (key_shift == 0) { s[0] = keytable0[i - 256]; } else { s[0] = keytable1[i - 256]; } } else { s[0] = 0; } if ('A' <= s[0] && s[0] <= 'Z') { /* 当输入字符为应为字符时 */ if (((key_leds & 4) == 0 && key_shift == 0) || ((key_leds & 4) != 0 && key_shift != 0)) { s[0] += 0x20; /* 将大写字母转换为小写字母 */ } } if (s[0] != 0) { /* 通常文字 */ if (key_to == 0) { /* 发送给任务A */ if (cursor_x < 128) { /* 显示1个字符就前移1次光标 */ s[1] = 0; putfonts8_asc_sht(sht_win, cursor_x, 28, COL8_000000, COL8_FFFFFF, s, 1); cursor_x += 8; } } else { /* 发送给命令行窗口 */ fifo32_put(&task_cons->fifo, s[0] + 256); } } if (i == 256 + 0x0e) { /* 退格键 */ if (key_to == 0) { /* 发送给任务A */ if (cursor_x > 8) { /* 用空格键把光标消去后,后移1次光标 */ putfonts8_asc_sht(sht_win, cursor_x, 28, COL8_000000, COL8_FFFFFF, " ", 1); cursor_x -= 8; } } else { /* 发送给命令行窗口 */ fifo32_put(&task_cons->fifo, 8 + 256); } } if (i == 256 + 0x0f) { /* Tab */ if (key_to == 0) { key_to = 1; make_wtitle8(buf_win, sht_win->bxsize, "task_a", 0); make_wtitle8(buf_cons, sht_cons->bxsize, "console", 1); } else { key_to = 0; make_wtitle8(buf_win, sht_win->bxsize, "task_a", 1); make_wtitle8(buf_cons, sht_cons->bxsize, "console", 0); } sheet_refresh(sht_win, 0, 0, sht_win->bxsize, 21); sheet_refresh(sht_cons, 0, 0, sht_cons->bxsize, 21); } if (i == 256 + 0x2a) { /* 左Shift ON */ key_shift |= 1; // 直接赋值呢? } if (i == 256 + 0x36) { /* 右Shift ON */ key_shift |= 2; } if (i == 256 + 0xaa) { /* 左Shift OFF */ key_shift &= ~1; } if (i == 256 + 0xb6) { /* 右Shift OFF */ key_shift &= ~2; } if (i == 256 + 0x3a) { /* CapsLock */ key_leds ^= 4; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x45) { /* NumLock */ key_leds ^= 2; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x46) { /* ScrollLock */ key_leds ^= 1; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0xfa) { /* 键盘成功接收到数据 */ keycmd_wait = -1; } if (i == 256 + 0xfe) { /* 键盘没有成功接收到数据 */ wait_KBC_sendready(); io_out8(PORT_KEYDAT, keycmd_wait); } /* カーソルの再表示 */ boxfill8(sht_win->buf, sht_win->bxsize, cursor_c, cursor_x, 28, cursor_x + 7, 43); sheet_refresh(sht_win, cursor_x, 28, cursor_x + 8, 44); } else if (512 <= i && i <= 767) { /* マウスデータ */ if (mouse_decode(&mdec, i - 512) != 0) { /* 鼠标的3个字节都齐了,显示出来 */ sprintf(s, "[lcr %4d %4d]", mdec.x, mdec.y); if ((mdec.btn & 0x01) != 0) { s[1] = 'L'; } if ((mdec.btn & 0x02) != 0) { s[3] = 'R'; } if ((mdec.btn & 0x04) != 0) { s[2] = 'C'; } putfonts8_asc_sht(sht_back, 32, 16, COL8_FFFFFF, COL8_008484, s, 15); /* 移动鼠标 */ mx += mdec.x; my += mdec.y; if (mx < 0) { mx = 0; } if (my < 0) { my = 0; } if (mx > binfo->scrnx - 1) { mx = binfo->scrnx - 1; } if (my > binfo->scrny - 1) { my = binfo->scrny - 1; } sprintf(s, "(%3d, %3d)", mx, my); putfonts8_asc_sht(sht_back, 0, 0, COL8_FFFFFF, COL8_008484, s, 10); sheet_slide(sht_mouse, mx, my); if ((mdec.btn & 0x01) != 0) { /* 按下左键、移动sht_win */ sheet_slide(sht_win, mx - 80, my - 8); } } } else if (i <= 1) { /* 光标用定时器 */ if (i != 0) { timer_init(timer, &fifo, 0); /* 下面设定0 */ cursor_c = COL8_000000; } else { timer_init(timer, &fifo, 1); /* 下面设定1 */ cursor_c = COL8_FFFFFF; } timer_settime(timer, 50); boxfill8(sht_win->buf, sht_win->bxsize, cursor_c, cursor_x, 28, cursor_x + 7, 43); sheet_refresh(sht_win, cursor_x, 28, cursor_x + 8, 44); } } } }
void HariMain(void) { int i; int mmx = -1, mmy = -1, mmx2 = 0; struct SHEET *sht = 0, *key_win; struct BOOTINFO *binfo = (struct BOOTINFO *)0x0ff0; int xsize = (*binfo).scrnx; int ysize = (*binfo).scrny; int mx = xsize/2; int my = ysize/2; int new_mx = -1, new_my = 0, new_wx = 0x7fffffff, new_wy = 0; int fifobuf[128], keycmd_buf[32], *cons_fifo[2]; struct MOUSE_DEC mdec; unsigned char s[32]; unsigned int memtotal; struct MEMMAN *memman = (struct MEMMAN *)MEMMAN_ADDR; int key_shift = 0, key_leds = (binfo->leds >> 4) & 7, keycmd_wait = -1; struct SHTCTL *shtctl; struct SHEET *sht_back, *sht_mouse; unsigned char *buf_back, buf_mouse[256], *buf_cons[2]; struct TIMER *timer; struct FIFO32 fifo, keycmd; struct TASK *task_a, *task_cons[2]; static char keytable0[0x80] = { 0, 0, '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', '-', '^', 0x08, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '@', '[', 0x0a, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', ';', ':', 0, 0, ']', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', ',', '.', '/', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0 }; static char keytable1[0x80] = { 0, 0, '!', 0x22, '#', '$', '%', '&', 0x27, '(', ')', '~', '=', '~', 0x08, 0, 'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '`', '{', 0x0a, 0, 'A', 'S', 'D', 'F', 'G', 'H', 'J', 'K', 'L', '+', '*', 0, 0, '}', 'Z', 'X', 'C', 'V', 'B', 'N', 'M', '<', '>', '?', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1', '2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, '_', 0, 0, 0, 0, 0, 0, 0, 0, 0, '|', 0, 0 }; init_gdtidt (); init_pic (); io_sti (); fifo32_init(&fifo, 32, fifobuf, 0); fifo32_init(&keycmd, 32, keycmd_buf, 0); init_pit(); io_out8(PIC0_IMR, 0xf8); /* Allow PIT and Keyboard (11111000) */ io_out8(PIC1_IMR, 0xef); /* Allow Mouse (11101111) */ init_keyboard (&fifo, 256); enable_mouse (&fifo, 512, &mdec); timer = timer_alloc(); timer_init(timer, &fifo, 1); timer_settime(timer, 50); memtotal = memtest(0x00400000, 0xbfffffff); memman_init (memman); memman_free (memman, 0x00001000, 0x009e000); /* 0x00001000 - 0x0009efff */ memman_free (memman, 0x00400000, memtotal - 0x00400000); init_pallete(); shtctl = shtctl_init (memman, binfo->vram, binfo->scrnx, binfo->scrny); sht_back = sheet_alloc(shtctl); sht_mouse = sheet_alloc(shtctl); buf_back = (unsigned char *)memman_alloc_4k (memman, binfo->scrnx * binfo->scrny); sheet_setbuf (sht_back, buf_back, binfo->scrnx, binfo->scrny, -1); sheet_setbuf (sht_mouse, buf_mouse, 16, 16, 99); init_screen (buf_back, xsize, ysize); init_mouse_cursor8 (buf_mouse, 99); *((int *) 0x0fec) = (int) &fifo; //===================== // Task Settings //===================== task_a = task_init(memman); fifo.task = task_a; task_run (task_a, 1, 0); /* console sheet */ key_win = open_console (shtctl, memtotal); //======================= // Sheet Setting //======================= *((int *) 0x0fe4) = (int) shtctl; sheet_slide (sht_back, 0, 0); sheet_slide (key_win, 32, 4); sheet_slide (sht_mouse, mx, my); sheet_updown (sht_back, 0); sheet_updown (key_win, 1); sheet_updown (sht_mouse, 2); sheet_refresh (sht_back, 0, 0, binfo->scrnx, 48); keywin_on (key_win); fifo32_put (&keycmd, KEYCMD_LED); fifo32_put (&keycmd, key_leds); for (;;) { if (fifo32_status(&keycmd) > 0 && keycmd_wait < 0) { keycmd_wait = fifo32_get(&keycmd); wait_KBC_sendready (); io_out8(PORT_KEYDAT, keycmd_wait); } io_cli(); if (fifo32_status(&fifo) == 0) { /* execute draw if FIFO is empty */ if (new_mx >= 0) { io_sti (); sheet_slide (sht_mouse, new_mx, new_my); new_mx = -1; } else if (new_wx != 0x7fffffff) { io_sti (); sheet_slide (sht, new_wx, new_wy); new_wx = 0x7fffffff; } else { task_sleep(task_a); io_sti(); } } else { i = fifo32_get(&fifo); io_sti(); if (key_win != 0 && key_win->flags == 0) { // input Window is closed if (shtctl->top == 1) { // ony mouse and background key_win = 0; } else { key_win = shtctl->sheets[shtctl->top - 1]; keywin_on (key_win); } } if (256 <= i && i <= 511) { // Keyboard Data if (i < 0x80 + 256) { if (key_shift == 0) { s[0] = keytable0[i - 256]; } else { s[0] = keytable1[i - 256]; } } else { s[0] = 0; } if ('A' <= s[0] && s[0] <= 'Z') { if (((key_leds & 4) == 0 && key_shift == 0) || ((key_leds & 4) != 0 && key_shift != 0)) { s[0] += 0x20; } } if (s[0] != 0 && key_win != 0) { fifo32_put(&key_win->task->fifo, s[0] + 256); } if (i == 256 + 0x0f && key_win != 0) { // Tab keywin_off (key_win); int j = key_win->height - 1; if (j == 0) { j = shtctl->top - 1; } key_win = shtctl->sheets[j]; keywin_on (key_win); } if (i == 256 + 0x2a) { // Left Shift ON key_shift |= 1; } if (i == 256 + 0x36) { // Right Shift ON key_shift |= 2; } if (i == 256 + 0xaa) { // Left Shift OFF key_shift &= ~1; } if (i == 256 + 0xb6) { // Right Shift ON key_shift &= ~2; } if (i == 256 + 0x3a) { // CapsLock key_leds ^= 4; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x45) { // NumLock key_leds ^= 2; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x46) { // ScrollLock key_leds ^= 1; fifo32_put(&keycmd, KEYCMD_LED); fifo32_put(&keycmd, key_leds); } if (i == 256 + 0x3b && key_shift != 0 && key_win != 0) { struct TASK *task = key_win->task; if (task != 0 && task->tss.ss0 != 0) { /* Shift+F1 */ cons_putstr0 (task->cons, "\nBreak(key) : \n"); io_cli (); task->tss.eax = (int) &(task->tss.esp0); task->tss.eip = (int) asm_end_app; io_sti (); } } if (i == 256 + 0x3c && key_shift != 0) { /* Shift+F2 */ if (key_win != 0) { keywin_off (key_win); } key_win = open_console (shtctl, memtotal); sheet_slide (key_win, 32, 4); sheet_updown (key_win, shtctl->top); keywin_on (key_win); } if (i == 256 + 0x57) { /* F11 */ sheet_updown (shtctl->sheets[1], shtctl->top-1); } if (i == 256 + 0xfa) { // KeyBoard receive Data keycmd_wait = -1; } if (i == 256 + 0xfe) { // KeyBoard failed to receive Data wait_KBC_sendready (); io_out8(PORT_KEYDAT, keycmd_wait); } } else if (512 <= i && i <= 767) { // Mouse Data if (mouse_decode(&mdec, i-512) != 0) { mx += mdec.x; my += mdec.y; if (mx < 0) { mx = 0; } if (mx > binfo->scrnx - 1) { mx = binfo->scrnx - 1; } if (my < 0) { my = 0; } if (my > binfo->scrny - 1) { my = binfo->scrny - 1; } // sprintf(s, "(%d, %d)", mx, my); // putfonts8_asc_sht (sht_back, 0, 0, COL8_FFFFFF, COL8_008484, s, 10); sheet_slide (sht_mouse, mx, my); new_mx = mx; new_my = my; if ((mdec.btn & 0x01) != 0) { /* Left Mouse Button is down */ if (mmx < 0) { /* Normal Mode */ for (int j = shtctl->top - 1; j > 0; j--) { sht = shtctl->sheets[j]; int x = mx - sht->vx0; int y = my - sht->vy0; if (0 <= x && x < sht->bxsize && 0 <= y && y < sht->bysize) { if (sht->buf[y * sht->bxsize + x] != sht->col_inv) { sheet_updown (sht, shtctl->top - 1); if (sht != key_win) { keywin_off (key_win); key_win = sht; keywin_on (key_win); } if (3 <= x && x < sht->bxsize - 3 && 3 <= y && y < 21) { mmx = mx; mmy = my; mmx2 = sht->vx0; new_wy = sht->vy0; } if (sht->bxsize - 21 <= x && x < sht->bxsize - 5 && 5 <= y && y < 19) { if ((sht->flags & 0x10) != 0) { struct TASK *task = sht->task; cons_putstr0 (task->cons, "\nBreak(mouse) :\n"); io_cli (); task->tss.eax = (int) & (task->tss.esp0); task->tss.eip = (int) asm_end_app; io_sti (); } else { struct TASK *task = sht->task; io_cli (); fifo32_put (&task->fifo, 4); io_sti (); } } break; } } } } else { // Moving window mode int x = mx - mmx; int y = my - mmy; new_wx = (mmx2 + x + 2) & ~3; new_wy = new_wy + y; mmy = my; } } else { mmx = -1; if (new_wx != 0x7fffffff) { sheet_slide (sht, new_wx, new_wy); new_wx = 0x7fffffff; } } } } else if (768 <= i && i <= 1023) { close_console (shtctl->sheets0 + (i - 768)); } else if (1024 <= i && i < 2023) { close_constask (taskctl->tasks0 + (i - 1024)); } } } }