#include #include #include #ifdef HAVE_LIBVNCSERVER #include #include #endif /* HAVE_LIBVNCSERVER */ #include "dcpu16.h" #include "hw_keyboard.h" #define BUF_SZ 32 #ifdef WANT_VARIADIC_VOIDP_CAST #define VOIDP(__x__) ((void *)(__x__)) #else #define VOIDP(__x__) (__x__) #endif static dcpu16_hw_signal_t keyboard_reset_; static dcpu16_hw_signal_t keyboard_cycle_; static dcpu16_hw_signal_t keyboard_hwi_; static struct dcpu16_hw hw_ = { .vm = NULL, .name_ = "Generic Keyboard (compatible)", .id_l = 0x7406, .id_h = 0x30cf, .ver = 0x0001, .mfg_l = 0x0000, .mfg_h = 0x0000, .hwi = keyboard_hwi_, .cycle = keyboard_cycle_, .reset = keyboard_reset_, .data = (struct keyboard_ *)NULL }; struct keyboard_ { char *buf; size_t buf_sz; size_t buf_head; size_t buf_tail; DCPU16_WORD interrupt_message; unsigned char keys_pressed[256]; }; #ifdef HAVE_LIBVNCSERVER static const struct keysym_map_ { unsigned int rfb_start; unsigned int rfb_end; DCPU16_WORD dcpu_start; } keymap_[] = { { XK_space, XK_asciitilde, 0x20 }, /* ASCII range */ { XK_Delete, XK_Delete, 0x7f }, /* ASCII del */ { XK_BackSpace, XK_BackSpace, 0x10 }, /* bs */ { XK_Return, XK_Return, 0x11 }, /* ret */ { XK_Insert, XK_Insert, 0x12 }, /* ins */ { XK_Delete, XK_Delete, 0x13 }, /* del */ { XK_Up, XK_Up, 0x80 }, /* arrow up */ { XK_Down, XK_Down, 0x81 }, /* arrow down */ { XK_Left, XK_Left, 0x82 }, /* arrow left */ { XK_Right, XK_Right, 0x83 }, /* arrow right */ { XK_Shift_L, XK_Shift_R, 0x90 }, /* shift range */ { XK_Control_L, XK_Control_R, 0x91 }, /* control range */ { 0, 0, 0x0 } }; static int keysym_rfbtodcpu(unsigned int rfb, DCPU16_WORD *dcpu) { const struct keysym_map_ *map; for (map = keymap_; map->rfb_start; map++) { if (rfb >= map->rfb_start && rfb <= map->rfb_end) { *dcpu = (map->dcpu_start + (rfb - map->rfb_start)); return 0; } } *dcpu = 0x00; return -1; } static void keyboard_rfbevent_(rfbBool down, rfbKeySym key, rfbClientPtr cl) { DCPU16_WORD dcpu_key; struct dcpu16_hw *hw = (struct dcpu16_hw *)cl->screen->screenData; struct keyboard_ *keyboard = (struct keyboard_ *)hw->data; keysym_rfbtodcpu(key, &dcpu_key); fprintf(stderr, "%s: down:%u key:0x%04x dcpu_key:0x%04x\n", __func__, down, key, dcpu_key); fprintf(stderr, "%s: hw:%p name:%s vm:%p\n", __func__, VOIDP(hw), hw->name_, VOIDP(hw->vm)); keyboard->keys_pressed[dcpu_key] = (down ? 1 : 0); if (down) { if ((keyboard->buf_tail + 1) % keyboard->buf_sz == keyboard->buf_head) { hw->vm->warn_cb_("keyboard buffer overflow"); return; } keyboard->buf[keyboard->buf_tail] = dcpu_key; keyboard->buf_tail += 1; keyboard->buf_tail %= keyboard->buf_sz; } if (keyboard->interrupt_message) { dcpu16_interrupt(hw->vm, keyboard->interrupt_message); } } void keyboard_vnc_associate(struct dcpu16_hw *hw, rfbScreenInfoPtr rfbScreen) { rfbScreen->screenData = hw; rfbScreen->kbdAddEvent = keyboard_rfbevent_; } #endif /* HAVE_LIBVNCSERVER */ static void keyboard_reset_(struct dcpu16 *vm, void *data) { struct keyboard_ *keyboard = (struct keyboard_ *)data; (void)vm; keyboard->interrupt_message = 0; memset(keyboard->buf, 0, keyboard->buf_sz); } static void keyboard_cycle_(struct dcpu16 *vm, void *data) { struct keyboard_ *keyboard = (struct keyboard_ *)data; (void)vm, (void)keyboard; } static void keyboard_hwi_(struct dcpu16 *vm, void *data) { struct keyboard_ *keyboard = (struct keyboard_ *)data; DCPU16_WORD reg_a = vm->reg[DCPU16_REG_A]; DCPU16_WORD reg_b = vm->reg[DCPU16_REG_B]; switch (reg_a) { case 0: /* clear keyboard buffer */ memset(keyboard->buf, 0, keyboard->buf_sz); keyboard->buf_head = 0; keyboard->buf_tail = 0; break; case 1: /* get next key from buffer as C */ if (keyboard->buf_head == keyboard->buf_tail) break; vm->reg[DCPU16_REG_C] = keyboard->buf[keyboard->buf_head]; keyboard->buf_head += 1; keyboard->buf_head %= keyboard->buf_sz; break; case 2: /* get currently-pressed-state of key in B as C */ vm->reg[DCPU16_REG_C] = keyboard->keys_pressed[reg_b & 0x00ff]; break; case 3: /* set interrupt state */ keyboard->interrupt_message = reg_b; break; } } struct dcpu16_hw *keyboard_new(struct dcpu16 *vm) { struct dcpu16_hw *hw; char *b; hw = calloc(1, sizeof *hw); if (hw == NULL) { vm->warn_cb_("%s():%s", "calloc", strerror(errno)); return NULL; } memcpy(hw, &hw_, sizeof *hw); hw->data = calloc(1, sizeof hw->data); if (hw->data == NULL) { vm->warn_cb_("%s():%s", "calloc", strerror(errno)); free(hw); return NULL; } b = calloc(BUF_SZ, sizeof *b); if (b == NULL) { vm->warn_cb_("%s():%s", "calloc", strerror(errno)); free(hw->data); free(hw); return NULL; } ((struct keyboard_ *)(hw->data))->buf = b; ((struct keyboard_ *)(hw->data))->buf_sz = BUF_SZ; hw->vm = vm; return hw; } void keyboard_del(struct dcpu16_hw **hw) { if (hw) { if (*hw) { if ((*hw)->data) { free(((struct keyboard_ *)((*hw)->data))->buf); ((struct keyboard_ *)((*hw)->data))->buf = NULL; free((*hw)->data); (*hw)->data = NULL; } free(*hw); *hw = NULL; } } }