#ifndef __NEXTKBD_H__ #define __NEXTKBD_H__ #include "emu.h" #define MCFG_NEXTKBD_INT_CHANGE_CALLBACK(_write) \ devcb = &nextkbd_device::set_int_change_wr_callback(*device, DEVCB2_##_write); #define MCFG_NEXTKBD_INT_POWER_CALLBACK(_write) \ devcb = &nextkbd_device::set_int_power_wr_callback(*device, DEVCB2_##_write); #define MCFG_NEXTKBD_INT_NMI_CALLBACK(_write) \ devcb = &nextkbd_device::set_int_nmi_wr_callback(*device, DEVCB2_##_write); class nextkbd_device : public device_t { public: nextkbd_device(const machine_config &mconfig, const char *tag, device_t *owner, UINT32 clock); template static devcb2_base &set_int_change_wr_callback(device_t &device, _Object object) { return downcast(device).int_change_cb.set_callback(object); } template static devcb2_base &set_int_power_wr_callback(device_t &device, _Object object) { return downcast(device).int_power_cb.set_callback(object); } template static devcb2_base &set_int_nmi_wr_callback(device_t &device, _Object object) { return downcast(device).int_nmi_cb.set_callback(object); } DECLARE_ADDRESS_MAP(amap, 32); DECLARE_READ8_MEMBER(status_snd_r); DECLARE_READ8_MEMBER(status_kms_r); DECLARE_READ8_MEMBER(status_dma_r); DECLARE_READ8_MEMBER(status_cmd_r); DECLARE_READ32_MEMBER(cdata_r); DECLARE_READ32_MEMBER(kmdata_r); DECLARE_WRITE8_MEMBER(ctrl_snd_w); DECLARE_WRITE8_MEMBER(ctrl_kms_w); DECLARE_WRITE8_MEMBER(ctrl_dma_w); DECLARE_WRITE8_MEMBER(ctrl_cmd_w); DECLARE_WRITE32_MEMBER(cdata_w); DECLARE_WRITE32_MEMBER(kmdata_w); bool int_level_get(); DECLARE_INPUT_CHANGED_MEMBER(update); protected: virtual void device_start(); virtual void device_reset(); virtual void device_timer(emu_timer &timer, device_timer_id id, int param, void *ptr); virtual ioport_constructor device_input_ports() const; private: // Big thanks to the previous emulator for that information enum { C_SOUND_OUT_ENABLE = 0x80, // rw C_SOUND_OUT_REQUEST = 0x40, // r C_SOUND_OUT_UNDERRUN = 0x20, // rw C_SOUND_IN_ENABLE = 0x08, // rw C_SOUND_IN_REQUEST = 0x04, // r C_SOUND_IN_OVERRUN = 0x02, // rw C_SOUND_WMASK = 0xaa, C_KBD_INTERRUPT = 0x80, // r C_KBD_DATA = 0x40, // r C_KBD_OVERRUN = 0x20, // rw C_KBD_NMI = 0x10, // rw? C_KMS_INTERRUPT = 0x08, // r C_KMS_DATA = 0x04, // r C_KMS_OVERRUN = 0x02, // rw C_KMS_WMASK = 0x22, C_SDMA_OUT_PENDING = 0x80, // r C_SDMA_OUT_RUNNING = 0x40, // r C_CDMA_PENDING = 0x20, // r C_CDMA_RUNNING = 0x10, // r C_KMS_ENABLE = 0x02, // rw C_LOOPBACK = 0x01, // rw C_WMASK = 0x03, D_ERROR = 0x40000000, D_USER = 0x20000000, D_MASTER = 0x10000000, D_SECONDARY = 0x01000000, D_VERSION_OLD = 0x00000000, D_VERSION_NEW = 0x00010000, D_VERSION_DIGITAL = 0x00020000, D_KBD_VALID = 0x00008000, D_KBD_KEYDOWN = 0x00000080 }; enum { FIFO_SIZE = 32 }; devcb2_write_line int_change_cb, int_power_cb, int_nmi_cb; required_ioport mousex; required_ioport mousey; required_ioport mousebtn; emu_timer *poll_timer; bool nmi_active; UINT32 cdata, kmdata, fifo_ir, fifo_iw, fifo_size; UINT32 fifo[FIFO_SIZE]; UINT32 km_address; UINT32 prev_mousex, prev_mousey, prev_mousebtn; UINT16 modifiers_state; UINT8 ctrl_snd, ctrl_kms, ctrl_dma, ctrl_cmd; void fifo_push(UINT32 val); UINT32 fifo_pop(); bool fifo_empty() const; void update_mouse(bool force_update); void send(); void handle_fifo_command(); void handle_kbd_command(); void handle_command(); }; extern const device_type NEXTKBD; #endif