static void* hidpad_wii_connect(struct apple_pad_connection* connection, uint32_t slot) { struct wiimote_t* device = calloc(1, sizeof(struct wiimote_t)); device->connection = connection; device->unid = slot; device->state = WIIMOTE_STATE_CONNECTED; device->exp.type = EXP_NONE; wiimote_handshake(device, -1, NULL, -1); return device; }
static void* btpad_wii_connect(const btpad_connection_t* connection) { struct wiimote_t* device = malloc(sizeof(struct wiimote_t)); memset(device, 0, sizeof(struct wiimote_t)); memcpy(device->addr, connection->address, BD_ADDR_LEN); device->wiiMoteConHandle = connection->handle; device->c_source_cid = connection->channels[0]; device->i_source_cid = connection->channels[1]; device->state = WIIMOTE_STATE_CONNECTED; device->exp.type = EXP_NONE; wiimote_handshake(device, -1, NULL, -1); return device; }
static void btpad_wii_packet_handler(struct wiimote_t* device, uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size) { if(packet_type == L2CAP_DATA_PACKET) { byte* msg = packet + 2; switch (packet[1]) { case WM_RPT_BTN: { wiimote_pressed_buttons(device, msg); break; } case WM_RPT_READ: { wiimote_pressed_buttons(device, msg); wiimote_handshake(device, WM_RPT_READ, msg + 5, ((msg[2] & 0xF0) >> 4) + 1); break; } case WM_RPT_CTRL_STATUS: { wiimote_pressed_buttons(device, msg); wiimote_handshake(device,WM_RPT_CTRL_STATUS,msg,-1); break; } case WM_RPT_BTN_EXP: { wiimote_pressed_buttons(device, msg); wiimote_handle_expansion(device, msg+2); break; } } g_current_input_data.pad_buttons[device->unid] = btpad_wii_get_buttons(device); for (int i = 0; i < 4; i ++) g_current_input_data.pad_axis[device->unid][i] = btpad_wii_get_axis(device, i); }
static void hidpad_wii_packet_handler(struct wiimote_t* device, uint8_t *packet, uint16_t size) { byte* msg = packet + 2; switch (packet[1]) { case WM_RPT_BTN: { wiimote_pressed_buttons(device, msg); break; } case WM_RPT_READ: { wiimote_pressed_buttons(device, msg); wiimote_handshake(device, WM_RPT_READ, msg + 5, ((msg[2] & 0xF0) >> 4) + 1); break; } case WM_RPT_CTRL_STATUS: { wiimote_pressed_buttons(device, msg); wiimote_handshake(device,WM_RPT_CTRL_STATUS,msg,-1); break; } case WM_RPT_BTN_EXP: { wiimote_pressed_buttons(device, msg); wiimote_handle_expansion(device, msg+2); break; } } g_current_input_data.pad_buttons[device->unid] = device->btns | (device->exp.cc.classic.btns << 16); for (int i = 0; i < 4; i ++) g_current_input_data.pad_axis[device->unid][i] = hidpad_wii_get_axis(device, i); }
static void btpad_wii_packet_handler(struct wiimote_t* device, uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size) { if(packet_type == L2CAP_DATA_PACKET) { byte* msg = packet + 2; switch (packet[1]) { case WM_RPT_BTN: { wiimote_pressed_buttons(device, msg); return; } case WM_RPT_READ: { wiimote_pressed_buttons(device, msg); wiimote_handshake(device, WM_RPT_READ, msg + 5, ((msg[2] & 0xF0) >> 4) + 1); return; } case WM_RPT_CTRL_STATUS: { wiimote_pressed_buttons(device, msg); wiimote_handshake(device,WM_RPT_CTRL_STATUS,msg,-1); return; } case WM_RPT_BTN_EXP: { wiimote_pressed_buttons(device, msg); wiimote_handle_expansion(device, msg+2); return; } } }