// license:BSD-3-Clause // copyright-holders:Aaron Giles, Nathan Woods /********************************************************************** Motorola 6821 PIA interface and emulation Notes: * port_b_z_mask() gives the caller the bitmask that shows which bits are high-impedance when reading port B, and thus neither 0 or 1. cb2_output_z() returns the same info for the CB2 pin. * The 'alt' interface functions are used when the A0 and A1 address bits are swapped. * All 'int' data or return values are bool, and should be converted to bool at some point. **********************************************************************/ #ifndef MAME_MACHINE_6821PIA_H #define MAME_MACHINE_6821PIA_H #pragma once /*************************************************************************** TYPE DEFINITIONS ***************************************************************************/ // ======================> pia6821_device class pia6821_device : public device_t { public: // construction/destruction pia6821_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock = 0); // TODO: REMOVE THESE auto readpa_handler() { return m_in_a_handler.bind(); } auto readpb_handler() { return m_in_b_handler.bind(); } auto readca1_handler() { return m_in_ca1_handler.bind(); } auto readca2_handler() { return m_in_ca2_handler.bind(); } auto readcb1_handler() { return m_in_cb1_handler.bind(); } auto writepa_handler() { return m_out_a_handler.bind(); } auto writepb_handler() { return m_out_b_handler.bind(); } auto tspb_handler() { return m_ts_b_handler.bind(); } auto ca2_handler() { return m_ca2_handler.bind(); } auto cb2_handler() { return m_cb2_handler.bind(); } auto irqa_handler() { return m_irqa_handler.bind(); } auto irqb_handler() { return m_irqb_handler.bind(); } uint8_t read(offs_t offset); void write(offs_t offset, uint8_t data); uint8_t read_alt(offs_t offset) { return read(((offset << 1) & 0x02) | ((offset >> 1) & 0x01)); } void write_alt(offs_t offset, uint8_t data) { write(((offset << 1) & 0x02) | ((offset >> 1) & 0x01), data); } uint8_t port_b_z_mask() const { return ~m_ddr_b; } // see notes void porta_w(uint8_t data); void write_porta_line(int line, bool state); void set_a_input(uint8_t data); uint8_t a_output(); void set_port_a_input_overrides_output_mask(uint8_t mask) { m_a_input_overrides_output_mask = mask; } void pa0_w(int state) { write_porta_line(0, state); } void pa1_w(int state) { write_porta_line(1, state); } void pa2_w(int state) { write_porta_line(2, state); } void pa3_w(int state) { write_porta_line(3, state); } void pa4_w(int state) { write_porta_line(4, state); } void pa5_w(int state) { write_porta_line(5, state); } void pa6_w(int state) { write_porta_line(6, state); } void pa7_w(int state) { write_porta_line(7, state); } void ca1_w(int state); void ca2_w(int state); bool ca2_output(); bool ca2_output_z(); void portb_w(uint8_t data); void write_portb_line(int line, bool state); uint8_t b_output(); void pb0_w(int state) { write_portb_line(0, state); } void pb1_w(int state) { write_portb_line(1, state); } void pb2_w(int state) { write_portb_line(2, state); } void pb3_w(int state) { write_portb_line(3, state); } void pb4_w(int state) { write_portb_line(4, state); } void pb5_w(int state) { write_portb_line(5, state); } void pb6_w(int state) { write_portb_line(6, state); } void pb7_w(int state) { write_portb_line(7, state); } void cb1_w(int state); void cb2_w(int state); bool cb2_output(); bool cb2_output_z(); int irq_a_state() const { return m_irq_a_state; } int irq_b_state() const { return m_irq_b_state; } protected: // device_t implementation virtual void device_start() override ATTR_COLD; virtual void device_reset() override ATTR_COLD; private: void update_interrupts(); uint8_t get_in_a_value(); uint8_t get_in_b_value(); uint8_t get_out_a_value(); uint8_t get_out_b_value(); void set_out_ca2(int data); void set_out_cb2(int data); uint8_t port_a_r(); uint8_t ddr_a_r(); uint8_t control_a_r(); uint8_t port_b_r(); uint8_t ddr_b_r(); uint8_t control_b_r(); void send_to_out_a_func(const char* message); void send_to_out_b_func(const char* message); void port_a_w(uint8_t data); void ddr_a_w(uint8_t data); void port_b_w(uint8_t data); void ddr_b_w(uint8_t data); void control_a_w(uint8_t data); void control_b_w(uint8_t data); static bool irq1_enabled(uint8_t c); static bool c1_low_to_high(uint8_t c); static bool c1_high_to_low(uint8_t c); static bool output_selected(uint8_t c); static bool irq2_enabled(uint8_t c); static bool strobe_e_reset(uint8_t c); static bool strobe_c1_reset(uint8_t c); static bool c2_set(uint8_t c); static bool c2_low_to_high(uint8_t c); static bool c2_high_to_low(uint8_t c); static bool c2_set_mode(uint8_t c); static bool c2_strobe_mode(uint8_t c); static bool c2_output(uint8_t c); static bool c2_input(uint8_t c); devcb_read8 m_in_a_handler; devcb_read8 m_in_b_handler; devcb_read_line m_in_ca1_handler; devcb_read_line m_in_cb1_handler; devcb_read_line m_in_ca2_handler; devcb_write8 m_out_a_handler; devcb_write8 m_out_b_handler; devcb_read8 m_ts_b_handler; devcb_write_line m_ca2_handler; devcb_write_line m_cb2_handler; devcb_write_line m_irqa_handler; devcb_write_line m_irqb_handler; uint8_t m_in_a; uint8_t m_in_ca1; uint8_t m_in_ca2; uint8_t m_out_a; uint8_t m_a_input_overrides_output_mask; uint8_t m_out_ca2; uint8_t m_ddr_a; uint8_t m_ctl_a; bool m_irq_a1; bool m_irq_a2; uint8_t m_irq_a_state; uint8_t m_in_b; uint8_t m_in_cb1; uint8_t m_in_cb2; uint8_t m_out_b; uint8_t m_out_cb2; uint8_t m_last_out_cb2_z; uint8_t m_ddr_b; uint8_t m_ctl_b; bool m_irq_b1; bool m_irq_b2; uint8_t m_irq_b_state; // variables that indicate if access a line externally - // used to for logging purposes ONLY bool m_in_a_pushed; bool m_out_a_needs_pulled; bool m_in_ca1_pushed; bool m_in_ca2_pushed; bool m_out_ca2_needs_pulled; bool m_in_b_pushed; bool m_out_b_needs_pulled; bool m_in_cb1_pushed; bool m_in_cb2_pushed; bool m_out_cb2_needs_pulled; bool m_logged_port_a_not_connected; bool m_logged_port_b_not_connected; bool m_logged_ca1_not_connected; bool m_logged_ca2_not_connected; bool m_logged_cb1_not_connected; bool m_logged_cb2_not_connected; }; // device type definition DECLARE_DEVICE_TYPE(PIA6821, pia6821_device) #endif // MAME_MACHINE_6821PIA_H