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// license:BSD-3-Clause
// copyright-holders:Vas Crabb
#ifndef MAME_MACHINE_TAITSJSEC_H
#define MAME_MACHINE_TAITSJSEC_H

#pragma once

#include "cpu/m6805/m68705.h"


DECLARE_DEVICE_TYPE(TAITO_SJ_SECURITY_MCU, taito_sj_security_mcu_device)

#define MCFG_TAITO_SJ_SECURITY_MCU_INT_MODE(mode) \
		downcast<taito_sj_security_mcu_device &>(*device).set_int_mode(taito_sj_security_mcu_device::int_mode::mode);
#define MCFG_TAITO_SJ_SECURITY_MCU_68READ_CB(cb) \
		devcb = &downcast<taito_sj_security_mcu_device &>(*device).set_68read_cb(DEVCB_##cb);
#define MCFG_TAITO_SJ_SECURITY_MCU_68WRITE_CB(cb) \
		devcb = &downcast<taito_sj_security_mcu_device &>(*device).set_68write_cb(DEVCB_##cb);
#define MCFG_TAITO_SJ_SECURITY_MCU_68INTRQ_CB(cb) \
		devcb = &downcast<taito_sj_security_mcu_device &>(*device).set_68intrq_cb(DEVCB_##cb);
#define MCFG_TAITO_SJ_SECURITY_MCU_BUSRQ_CB(cb) \
		devcb = &downcast<taito_sj_security_mcu_device &>(*device).set_busrq_cb(DEVCB_##cb);

class taito_sj_security_mcu_device : public device_t
{
public:
	enum class int_mode
	{
		NONE,
		LATCH,
		WRITE
	};

	void set_int_mode(int_mode mode) { m_int_mode = mode; }
	template <typename Obj> devcb_base &set_68read_cb(Obj &&cb) { return m_68read_cb.set_callback(std::forward<Obj>(cb)); }
	template <typename Obj> devcb_base &set_68write_cb(Obj &&cb) { return m_68write_cb.set_callback(std::forward<Obj>(cb)); }
	template <typename Obj> devcb_base &set_68intrq_cb(Obj &&cb) { return m_68intrq_cb.set_callback(std::forward<Obj>(cb)); }
	template <typename Obj> devcb_base &set_busrq_cb(Obj &&cb) { return m_busrq_cb.set_callback(std::forward<Obj>(cb)); }

	taito_sj_security_mcu_device(
			machine_config const &mconfig,
			char const *tag,
			device_t *owner,
			u32 clock);

	// uses two consecutive addresses
	DECLARE_READ8_MEMBER(data_r);
	DECLARE_WRITE8_MEMBER(data_w);

	DECLARE_WRITE_LINE_MEMBER(busak_w);
	DECLARE_WRITE_LINE_MEMBER(reset_w);

protected:
	void device_start() override;
	void device_reset() override;
	void device_add_mconfig(machine_config &config) override;

	DECLARE_READ8_MEMBER(mcu_pa_r);
	DECLARE_READ8_MEMBER(mcu_pc_r);
	DECLARE_WRITE8_MEMBER(mcu_pa_w);
	DECLARE_WRITE8_MEMBER(mcu_pb_w);

private:
	u8 const get_bus_val() const
	{ return (BIT(~m_pb_val, 1) ? m_host_data : 0xffU) & m_pa_val & ((m_busak && BIT(~m_pb_val, 5)) ? m_read_data : 0xffU); }

	TIMER_CALLBACK_MEMBER(do_mcu_read);
	TIMER_CALLBACK_MEMBER(do_mcu_write);
	TIMER_CALLBACK_MEMBER(do_host_write);

	required_device<m68705p_device> m_mcu;

	int_mode m_int_mode;
	devcb_read8 m_68read_cb;
	devcb_write8 m_68write_cb;
	devcb_write_line m_68intrq_cb;
	devcb_write_line m_busrq_cb;

	// IC6/IC10 latch/count the low byte, IC14 buffers low byte, IC3 latches high byte
	u16 m_addr;

	// latched by IC9
	u8 m_mcu_data;

	// latched by IC13
	u8 m_host_data;

	// buffered by IC16
	u8 m_read_data;

	// IC7 pin 6, indicates CPU has accepted data from MCU
	bool m_zaccept;

	// IC7 pin 9, indicates CPU has sent data to MCU
	bool m_zready;

	// previous MCU port outputs for detecting edges
	u8 m_pa_val, m_pb_val;

	// input state
	bool m_busak, m_reset;
};

#endif // MAME_MACHINE_TATISJSEC_H